#Pakistan successfully tests Ra’ad air launched cruise missile with 350 km range: ISPR http://www.dawn.com/news/1234015 

Pakistan on Tuesday conducted a successful flight test of the indigenously developed Air Launched Cruise Missile (ALCM) – Ra’ad – said the military’s media wing in a statement.

The flight test of the cruise missile, which is also known as Hatf VIII, was the seventh since it was first tested in 2007.

It is essentially a flying bomb, generally designed to carry a large conventional or nuclear warhead many hundreds of miles with high accuracy. Modern cruise missiles can travel at supersonic or high subsonic speed.

These guided missiles are self-navigating and fly on a non-ballistic very low altitude trajectory in order to avoid radar detection.

The most common mission for cruise missiles is to attack relatively high value targets such as ships, command bunkers, bridges and dams. The modern guidance system permits precise attacks.

The Inter-Services Public Relations said Ra’ad, with a range of 350km, “enables Pakistan to achieve air delivered strategic standoff capability on land and at sea.” The missile is approximately five metres long and could weigh up to 1,000kg.

Read: Pakistan's tool of war: Why the Mi-35 Hind-E is an excellent choice

Special “terrain hugging low level flight maneuvers enable it to avoid detection and engagement by contemporary air defence systems,” the statement added.

Cruise technology is extremely complex and has been developed by only a few countries in the world.

The president and the prime minister congratulated the scientists and engineers behind the development for their outstanding achievement on the successful flight test of Ra’ad.

Director General Strategic Plans Division, Lt Gen Mazhar Jamil, termed the success a major step towards complementing Pakistan’s deterrence capability.

He said achievement of “this milestone will surely enhance strategic stability and contribute to peace in the region.”

#China Newspaper: Range of #Pakistan's #nuclear #missiles will increase if #India continues to extend its range.

http://www.globaltimes.cn/content/1027113.shtml

On Monday, India successfully tested its long-range ballistic missile, Agni-IV, which can travel 4,000 kilometers and carry a nuclear warhead, in the wake of an earlier successful test-firing of Agni-V that has a range of more than 5,000 kilometers. The country's media were elated in their reports, stressing that India's tests of the nuclear-capable ballistic missile "covers entire China." "Agni-V can deter China," said The Times of India.

India has broken the UN's limits on its development of nuclear weapons and long-range ballistic missile. The US and some Western countries have also bent the rules on its nuclear plans. New Delhi is no longer satisfied with its nuclear capability and is seeking intercontinental ballistic missiles that can target anywhere in the world and then it can land on an equal footing with the UN Security Council's five permanent members.

India is "promising" in vying for permanent membership on the UN Security Council as it is the sole candidate who has both nuclear capability and economic potential.

China should realize that Beijing wouldn't hold back India's development of long-range ballistic missiles.

However, Chinese don't feel India's development has posed any big threat to it. And India wouldn't be considered as China's main rival in the long run. It is simply believed that currently there is a vast disparity in power between the two countries and India knows what it would mean if it poses a nuclear threat to China. The best choice for Beijing and New Delhi is to build rapport.

If the Western countries accept India as a nuclear country and are indifferent to the nuclear race between India and Pakistan, China will not stand out and stick rigidly to those nuclear rules as necessary. At this time, Pakistan should have those privileges in nuclear development that India has.

China is sincere in developing friendly ties with India. But it will not sit still if India goes too far. Meanwhile, New Delhi understands that it does little good to itself if the Sino-Indian relations are ruined by any geopolitical tricks. 

In general, it is not difficult for India to produce intercontinental ballistic missiles which can cover the whole world. If the UN Security Council has no objection over this, let it be. The range of Pakistan's nuclear missiles will also see an increase. If the world can adapt to these, China should too.

India still maintains a strategic defensive posture before China. The Chinese people should not be led astray by India's extreme words online about its deterrence ability against China. There are similar rhetorics targeting at India in China's cyber world. But, these aggressive online rhetorics count for little.

At present, India's GDP accounts for about 20 percent of China's. China's strategic nuclear missiles have long ago realized global coverage, and China's overall military industrial capacity is much better than that of India.

For India, China is something to inspire ambition and invoke patriotism. However, India should realize that owning several missiles does not mean it is a nuclear power. Even though India does become a nuclear power, it will be a long time before it can show off its strength to the world.

The Pakistan military has reportedly conducted the first successful flight test of a new medium range ballistic missile (MRBM), according to the Inter Services Public Relations (ISPR), the media arm of the Pakistan Armed Forces.

The test involved the successful launch of the surface-to-surface MRBM Ababeel, reportedly capable of carrying multiple warheads using Multiple Independent Re-entry Vehicle technology (MIRV). The new missile purportedly has a maximum range of 2,200 kilometers (1,367 miles).


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A third MRBM, the Shaheen-III, a multi-stage fueled ballistic missile with an estimated range of 2,750 kilometers (1,700 miles) is currently still under development by the National Development Complex. It is possible that the Ababeel is a more robust and redesigned variant of the Shaheen-III fitted with an improved terminal guidance system, among other modifications. Indeed, in order to accommodate a MIRV warhead, the Shaheen-III would in all likelihood have undergone a complete redesign.

Based on the press release it is unclear, however, whether Pakistan has mastered MIRV technology given that it merely mentions that the missile is “capable” of being fitted with a MIRV warhead, rather than announcing that it has mastered the technology and developed MIRV payloads.

And while the test will cause alarm in New Delhi, Islamabad will need to further invest in and develop intelligence, surveillance, and reconnaissance (ISR) capabilities including satellite technology (e.g., by adapting and refining China’s Beidou-II satellite navigation system for Pakistan’s sea- and land-based missile systems) to operationalize ballistic missiles capable of carrying multiple warheads and field a credible MIRV capability.

Nevertheless, the possible introduction of MIRV warheads is a clear sign that the nuclear arms race between India and Pakistan is escalating. The mentioning of MIRV technology in the press release announces a new and more dangerous stage in the nuclear arms competition in South Asia.

http://thediplomat.com/2017/01/pakistan-tests-new-ballistic-missile...

Pakistan pushes for homegrown satellite development
By: Usman Ansari

https://www.defensenews.com/space/2018/05/03/pakistan-pushes-for-ho...

Pakistan has launched an ambitious satellite program as part of ongoing efforts to wean itself off dependence on foreign-owned assets for civil and military applications.

Pakistan’s domestic space agency, the Space and Upper Atmosphere Research Commission, or SUPARCO, will receive a budget of just more than $40 million for fiscal 2018-2019.

Of this, some $22 million has been allocated for space centers related to the Pakistan Multi-Mission Satellite in Islamabad, Karachi and Lahore, plus the establishment of a research center in Karachi.

To get all the news about space and strategic systems delivered to your inbox every month, be sure to sign up for our Military Space Report newsletter.

However, the final cost of all three aspects of the project is reported in local media as being in the region of $470 million.

No response from SUPARCO was forthcoming when asked by Defense News regarding details about foreign cooperation on this endeavor, although existing information on planned remote sensing satellite programs list an electro-optical sensor-equipped satellite, and a synthetic aperture radar-equipped example.

An existing communications satellite partially co-developed in Pakistan, PAKSAT-1R, was launched by China Great Wall Industry Corporation in 2011.

“It is essential for all countries that they free themselves from dependence on U.S.-location satellite programs,” said Brian Cloughley, author, analyst and former Australian defense attache to Islamabad.

“I have no doubt this has been [in] the cards for some time and that the Chinese are helping.”

Defense News previously reported that Pakistan’s military had access to China’s BeiDou satellite navigation system for military applications, which had special implications for the effectiveness of its sea-based deterrent.

Pakistan also has a long-standing satellite development agreement with Turkey, which has its own recently unveiled observation satellite program.

However, at present it is unknown if anything has resulted from this, or if it will be pushed further down the road.

Cloughley believes it would take a long time to come to fruition, making cooperation with China more likely still.

Also, on cost grounds alone for the new program, Cloughley believes it likely that reliance on China will grow.

“The big question about this development is about where the money is to come from. Pakistan’s economic situation is dire, and commitment to such a program will not meet with [International Monetary Fund] approval. The China connection will probably deepen even further,” he said.

Whether China’s satellite technology will meet Pakistan’s requirements is unknown.

Brian Weeden, director of program planning at Secure World Foundation and an expert in space technologies and satellites, is unaware of the details of any satellites China may be building for Pakistan. However, he “would rate China’s technology in these areas as fairly good.”

“They’re not yet as capable as the most advanced American or European commercial technology, let alone the U.S. or European military satellites, but the Chinese technology is rapidly improving,” he said. 

It would appear that Iran chose to choose to use two identical half length solid motors of identical diameter for a second and third stage instead of the Shaheen-2 like first stage one with a sea level nozzle and the second one with an altitude nozzle as the second stage.

https://www.globalsecurity.org/wmd/world/iran/solid-prop-1.htm

It would appear that Pakistan in fact plans to lengthen the Shaheen-2 first and second stage solid motors to obtain higher performance for its space booster while retaining the existing M-11 based Shaheen-1 solid motors strap–on boosters. In any case both developments could and would lead to potential IRBM/ICBM development masquerading as space boosters for both countries. 

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Iran ’s missile solid propellant rocket motor program is not believed to be advanced enough compared to its liquid fuel rocket engine program, launch vehicle program to provide much more than strap on solid motors or upper and last stage satellite orbit injection solid motor for launch vehicles. This is based on the examples of the Naze’at-6 (NP-110), Naze’at-10 (NP-110A), Zelzel-1 (Mushak-100), Zelzel-2 (Mushak-200), and Fateh-110/110A. This solid motor program is known to be years behind the liquid propellant program but it is making systematic deliberate and critical strides that will eventually bring it up to IRBM, ICBM potential. Iran is believed during the year 2000 to have started the development of a new multi-stage solid propellant motor based Ghadr-101, and Ghadr-110, which may be an Iranian variant on the Shaheen-1, and Shaheen-II design of Pakistan . This advance is presumably thanks to the A. Q. Khan network, which in turn can thank China for its M-9, M-11 and M-18 technology.

The Link Between Space Launch and Missile Technology

https://www.wisconsinproject.org/the-link-between-space-launch-and-...

In 1963, NASA began the Indian rocket program. NASA launched a U.S. sounding rocket from India’s first test range, which the United States helped design. We also trained the first groups of Indian rocket scientists. NASA invited them to NASA’s Wallops Island test site located southeast of Washington, DC in Virginia.

While at NASA, Mr. A.P. Kalam, a member of the Indian delegation, learned about the U.S. Scout rocket, which was being flown at Wallops Island. The Scout was the only four-stage, solid-fueled, small payload space launcher in the world. Indian engineers saw the Scout’s blueprints during their visit. Two years later, the head of India’s Atomic Energy Commission asked NASA for design information about the Scout. Mr. Kalam then proceeded to build India’s first big rocket, the SLV-3, which became the only other four-stage, solid-fueled, small payload space launcher in the world. It was an exact copy of the Scout. The first stage of the Scout then became the first stage of India’s first large ballistic missile, the Agni-I. The Agni-I’s second stage was liquid-fueled, and was based on a surface-to-air missile called the SA-2 that India bought from Russia.

France also helped India master liquid-fuel technology by selling India the technology used to build the “Viking” engine used on the Ariane space launcher. India calls its version the “Vikas.” The Agni also needed a guidance system. The German Space Agency obliged with a long tutorial in rocket guidance, which allowed India to develop a guidance system and learn how to produce its components (gyroscopes, accelerometers and so forth). The German Space Agency also tested a model of the first stage of the SLV-3 in one of its wind tunnels in Cologne and helped India build its own rocket test facilities. Germany also trained Indians in how to make composite materials.

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The story in Pakistan is similar. NASA launched Pakistan’s first rocket in 1962. Pakistan’s project was also led by the head of Pakistan’s Atomic Energy Commission. We must wonder what was going through NASA’s mind at this time – it keeps getting requests for space cooperation from the heads of atomic energy commissions. Apparently NASA thought this was normal. NASA also trained Pakistani rocket scientists at Wallops Island, and launched rockets in Pakistan until 1970.

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We can see that our cooperation with India and Pakistan was a mistake. Both countries are now making nuclear missiles.

https://missilethreat.csis.org/missile/shaheen-3/

Shaheen 3
HomeWorld MissilesPakistanShaheen 3
The Shaheen 3 missile is a two-stage, solid-fueled medium-range ballistic missile in development by Pakistan. The missile is reportedly capable of carrying both nuclear and conventional payloads to a range of 2,750 km, which would make it the longest range missile in Pakistan’s strategic arsenal.1 It was first publicly displayed during a military parade in March 2016.2 The Shaheen 3 is road-mobile and reportedly mounted on a Chinese transporter erector launcher.3

Shaheen 3 at a Glance
Originated from: Pakistan
Possessed by: Pakistan
Class: Medium-Range Ballistic Missile (MRBM)
Basing: Road-mobile
Length: 19.3 m
Diameter: 1.4 m
Payload: Nuclear, conventional
Propulsion: Two-stage, Solid-propellant
Range: 2,750 km
Status: In development

shaheen 3

The publicized 2,750 km range of the Shaheen 3 suggests modest improvement over the Hatf 6 or Shaheen 2, which is reported to have a range between 2,000 and 2,500 km. The additional range allows the missile to target Andaman and Nicobar Islands in the Bay of Bengal, which is the sole reason for its development according to General Khalid Kidwai, the former head of the Strategic Plans Division.4

Some speculation suggests that Pakistan is also working to equip the Shaheen-3 with multiple independent reentry vehicles (MIRV) as a response to Indian attempts to develop a missile defense capability.5

The missile underwent at least two successful tests in 2015 in March and December. 6

https://missilethreat.csis.org/missile/shaheen-3/

Almost all Indian media outlets – from electronic and print to social – are giving wide coverage to an apparently ‘unusual development in the region’ under which Pakistan is all set to upgrade and advance its indigenous space programme which previously had “limited quality advancements” as compared to that of India, who has of late been engaged in active cooperation with the United States in order to enhance and upgrade its (Indian) satellite programme. In the recently announced annual budget, the Pakistan government has allocated a reasonable funding for the project. After successful completion of the programme, Pakistan is likely to come at par in space technology as well.

https://dailytimes.com.pk/238287/pakistan-set-to-compete-india-in-s...

Obviously the news of Pakistan’s more vibrant and advance space programme plan has sent shockwaves across the world, especially India, as the report published in newspapers specifically mentions that this programme is primarily aimed at keeping an eye on the Indian side besides serving other purposes. However, on the other hand, people of Pakistan, civil society, intelligentsia and political-cum-defence observers have expressed great satisfaction as for Pakistan advance space programmes were the need of the hour, not only from the defence point of view but also due to the growing demand from the civil communications, including the GPS, mobile telephony and the internet as well as due to changing scenario in the region, under which India has advanced itself to create security imbalance in the region.

Pakistan is entering a new era of advancement after its most successful, advanced and vibrant nuclear deterrent and missile system programmes. This will help reduce Pakistan’s dependence on foreign satellites it needs to use for civil and military purposes. Earlier Pakistan had been getting help from the US and France. Under the new indigenous space programme, Pakistan plans to initiate several projects to develop its own capacity while reducing the dependence on foreign satellites.

Pakistan is planning to establish various space centres, for example in cities like Karachi, Lahore and Islamabad with the allocation of Rs 1 billion.

The budget for SUPARCO (Pakistan’s “Space and Upper Atmosphere Research Organisation”) for the upcoming fiscal year 2018-19 has been set as Rs 4.70 billion, which includes Rs 2.55 billion for three new projects. SUPARCO has regularly been conducting activities each year to increase awareness of space technology and to promote its peaceful usage amongst the students and the masses in Pakistan since 2005. The budget allocation includes funding of Rs 1.35 billion for Pakistan Multi-Mission Satellite (PakSat-MM1). Likewise, Pakistan is planning to establish various space centres, for example in cities like Karachi, Lahore and Islamabad with the allocation of Rs 1 billion. Another project, third in a row, which is on cards, is establishment of Space Application Research Centre in Karachi with the budget of Rs 200 million in 2018-19. The total cost of PakSat-MM1 is said to be Rs 27.57 billion and the cost of the space centres is Rs 26.91 billion.

Space-based communication systems offer fast and affordable means of providing services like tele-education, telemedicine, mobile telephony and television to remote areas. The diversity and cultural exchanges of our populations can be better served by television broadcasting via satellites. Besides, communication satellites provide an important and essential communication medium to Pakistan’s armed forces. Remote sensing satellites have great potential in contributing to better land management, food security, disaster management, urban planning, mineral exploration, crop yield forecasting, water management, etc. Weather has a profound effect on life. Weather satellites provide forecasts on temperature, precipitation, cloudiness and winds have both civilian and military applications.

#Pakistan allocates US$40.7m to #space agency for 2018-19 for satellite development PakNav for navigation, PakSat communication, Remote sensing defense apps http://www.spacetechasia.com/pakistan-allocates-us40-7m-to-space-ag... … via @SpaceTech Asia

Pakistan, in its latest budget released on 27 April 2018, has allocated PKR4.7 billion (~US$40.7 million) to Space and Upper Atmosphere Research Organisation (SUPARCO). This is a 34% jump over the previous year’s budget allocation.

According to a report by Dawn News, this year’s budget includes PKR2.55 billion (~US$22 million) for three new programs:

US$11.7 million for Multi-Mission Satellite (PakSat- MM1) dedicated to live satellite television, broadband data transmission and emergency telecommunications services.
US$8.7 million for three “Pakistan Space Centre” sites in Karachi, Lahore and Islamabad.
US$1.7 million for the establishment of a “Space Application Research Centre” in Karachi.
The intention is to reduce reliance on foreign entities and satellites and develop indigenous capabilities and because of the “changing scenario in the region” [presumably in the geopolitical sense] according to the Dawn News report.

#Pakistan’s first remote sensing #satellite and Pakistan’s indigenous #Technology Evaluation Satellite (PakTES-1A) have become fully operational, according to the Ministry of Planning, Development and Reform. #space

https://www.geo.tv/latest/207416-pakistans-first-remote-sensing-sat...

The satellites were successfully launched from Jiuquan Satellite Launch Centre, China on July 9, 2018.

The planning, development and reform ministry shared the news on its social media: “After the successful tests in the orbit, the #satellites are fully operational and today, the control of PRSS-1 Satellite has been successfully transferred to Ground Control Stations in #Pakistan!”

China-Pakistan satellite nexus affects India’s war strategy

http://www.dnaindia.com/analysis/column-china-pakistan-satellite-ne...

China’s commercial interests in the South Asian space market have expanded into the security sphere, with it launching Pakistan Remote Sensing Satellite-1 (PRSS-1). This is ostensibly a crop and resources monitoring platform, but the military utility is obvious. The satellite was built by China, which is already investing in a high resolution remote sensing constellation “Yaogan”, possessing sophisticated electro-optic and radar sensors for military purposes. These satellites play a critical role in China’s Anti-Ship Ballistic Missile project, feeding time sensitive information for the missile launch and manoeuvring. 

Pakistan possessing such an advanced platform disrupts India’s battlefield superiority to an extent. A two-front war would stress allocation of resources and any qualitative enhancement of enemy’s forces would jeopardise India’s strategy. By acquiring satellite information, Pakistan will enhance its sensor to shooter connectivity and make precision strikes against Indian targets. This makes Pakistan’s tactical nuclear weapons more deadly against advancing Indian Army columns. Pakistan is already acquiring attack aircraft and warships from China, in addition to adopting its BeiDou GPS network that can give 10 cm accuracy on restricted military signal. 

The utility of GPS for military operations was well established by the United States, during the Gulf War and India’s inadequacy during the Kargil conflict. The use of Cartosat imaging for surgical strikes demonstrates the role played by remote sensing satellites. Therefore, Pakistan’s enhancement of its military capabilities, using space assets must be dominated by India improving its network-centric capabilities, including satellites. The inclusion of private industry in satellite manufacturing and launch vehicle operations should help remove the bottlenecks and improve India’s space advantages qualitatively and quantitatively.

#Pakistan's first #space mission to be launched in 2022. An agreement between Pakistan Space and Upper Atmosphere Research Commission (SUPARCO) and a #Chinese company has already been signed. #China #CPEC https://www.thenews.com.pk/latest/385381-first-pakistani-space-miss...

Pakistan in July this year launched two of its satellites into the orbit from Jiuquan Satellite Launch Centre in China.

The satellites, Pakistan Remote Sensing Satellite-1 (PRSS-1) and Pakistan Technology Evaluation Satellite-1A (PakTES-1A), were propelled into space through the Chinese Long March 2C launch vehicle.

The PRSS-1 is to be mainly used in Pakistan for land resources survey, evaluation, dynamic monitoring and management, resource utilisation, environmental disaster monitoring, agricultural survey, and urban construction.

The satellite, which has a designed life of seven years, is equipped with two panchromatic/multispectral cameras, with a resolution up to a meter and a coverage range of 60 km.

Bitter rivals blast off as #Pakistan enters #space race with #India. Both plan #astronauts in space in 2022. https://www.bloomberg.com/news/articles/2018-10-26/bitter-rivals-bl... via @bpolitics

The rivalry between India and Pakistan seems to be extending into outer space.

“The first Pakistani will be sent to space in 2022,” Information Minister Fawad Chaudhry said Thursday, the same year that India is planning its first manned mission. Pakistan’s space agency, the Space and Upper Atmosphere Research Commission, has “an agreement for this venture” with China’s Manned Space Agency, Chaudhry said.


While Pakistan’s financial capabilities for such a mission are seen as limited, the announcement still reflects the latest swipe between the two countries who have fought three wars since the partition of British India in 1947 and still trade fire across a de facto border in the disputed region of Kashmir.

The countries’ bitter rivalry is costing them $35 billion in annual trade, according to a World Bank report.

India has already conducted missions to Mars and the moon, and plans to spend $1.4 billion to send a crew of three to space by 2022, which would put it on track to become the fourth nation to send humans to space.

#Pakistan’s #SUPARCO Said To Be In Talks With #UAE On #Space Cooperation. Pakistan plans on sending its first #astronaut into space by 2022 with the assistance of China. #science #technology https://spacewatch.global/?p=13192

Pakistan’s space agency, the Space and Upper Atmosphere Research Commission (SUPARCO), is believed to be in talks with the United Arab Emirates (UAE) on developing an agenda for possible space cooperation, according to a senior SUPARCO official quoted in the UAE newspaper Khaleej Times.

SUPARCO were in the UAE last week where they were a prominent exhibitor at the Global Space Congress in Abu Dhabi for the first time. At their stand SUPARCO shared information with conference participants on their satellite projects.

Pakistan’s focus on space has increased over the past few years. It currently has two Earth observation satellites in orbit – the Pakistan Remote Sensing Satellite-1 (PRSS-1) and PakTES-1A both launched from China in 2018 – and the PakSat-MM1 and PakSat-1R communications satellites – with further Earth observation and communication satellite launches expected in the coming years.

Pakistan also plans on sending its first astronaut into space by 2022 with the assistance of China.

“We are in initial talks with the UAE for potential collaboration,” the secretary of SUPARCO, Dr Arif Ali, told the Khaleej Times on the sidelines of the Global Space Congress in Abu Dhabi.

“We have initial talks with them (the UAE) and our participation in this year’s congress is to have cooperation with UAE’s space sector, particularly in our strong areas such as satellite manufacturing and related-applications. If you have more satellites in space, then you have more opportunities of having international collaboration. At the same time, you gain something for your country and offer something beneficial for humanity. We believe in the peaceful use of outer space.”

Until now Pakistan has exclusively cooperated with China for developing its growing space programme. If reports that Pakistan is in discussions with the UAE about space cooperation are true, then this follows recent geopolitical developments involving the UAE helping Pakistan address its indebtedness to Beijing, incurred in part through the costs of the China-Pakistan Economic Corridor (CPEC), a signature project of China’s Belt and Road Initiative (BRI).

Both the UAE and Saudi Arabia have recently come to the aid of Pakistan’s Prime Minister Imran Khan in his attempt to revive the Pakistani economy and reduce the country’s exclusive reliance on China, by providing loans worth billions of dollars as well as substantial investments.

#China, #Pakistan sign deal on manned #space missions and #peaceful space exploration. CNSA and SUPARCO space agencies will establish a China-Pakistan space committee chaired by top officials from both sides to address future collaboration.- Global Times http://www.globaltimes.cn/content/1148045.shtml#.XMfTgXwP-iM.twitter

A newly signed space exploration agreement between China and Pakistan on manned space missions manifests their more profound cooperation on the peaceful use of outer space, experts said.

The two countries signed the agreement Saturday in Beijing, marking that cooperation between the two neighbors in space exploration has entered a new phase, according to a statement issued by the China National Space Administration (CNSA) on Sunday.

The agreement will serve as a high-level foundation for cooperation in space science and exploration. Both nations will conduct scientific and technological experiments, astronaut training, along with manned space applications and achievement transformation, said the CNSA statement.

The CNSA and the Pakistan Space and Upper Atmosphere Research Commission will establish a China-Pakistan space committee chaired by top officials from both sides to address future collaborative issues.

Since Pakistan is China's all-weather friend, China is willing to provide know-how to foster Pakistan's technological development on the use of outer space, Lan Jianxue, an associate research fellow at the China Institute of International Studies, told the Global Times on Monday.

"China-Pakistan space cooperation will help Pakistan in terms of satellite monitoring of natural disasters and agricultural production, land and resources surveying, and waste handling in a microgravity environment," said Lan, adding that China will also benefit from the cooperation, including for commercial applications of space technology, investment security and counter-terrorism.

In 2018, China sent two Pakistan satellites into orbit. The PRSS-1, Pakistan's first optical remote sensing satellite, and the PakTES-1A, a smaller observation craft, were both lifted into space by China's Long March-2C carrier rocket.

The current agreement signifies that their cooperation is not limited to infrastructure and resources, it also concerns technology and innovation, Lan said.

Pakistan Signs Space Cooperation Agreement With China To Enable First Pakistani Astronaut

https://spacewatch.global/2019/05/pakistan-signs-space-cooperation-...


Pakistan signed a space cooperation agreement with China at a ceremony in Beijing held on 27 April 2019 providing a framework for the training of Pakistani astronauts, space science and exploration, as well as the establishment of a Sino-Pakistani space committee that will discuss other cooperative initiatives in space.

The signing of the agreement by Hao Chun, Director of the China National Space Administration (CNSA), and Amer Nadeem, Chairman of Pakistan’s Space and Upper Atmosphere Research Commission (SUPARCO) took place on the sidelines of China’s Belt and Road Summit. The China-Pakistan Economic Corridor (CPEC) is an important aspect of China’s Belt and Road Initiative (BRI), though it has come under international criticism recently because of allegations that the infrastructure projects are over-priced, of poor quality, questionable economic viability, and incurs heavy debt on an already struggling Pakistani economy.

While brick and mortar infrastructure projects such as roads, railways, and ports receive much of the attention in media coverage of CPEC, there is a space aspect to the initiative that has already seen China launch several communication and Earth observation satellites for Pakistan, and in October 2018 it was announced that China will train and send to Earth orbit a Pakistani astronaut by 2022, a geopolitical response to an announcement by India earlier in 2018 that it will send its first indigenously launched astronaut to orbit by 2023.

“China-Pakistan space cooperation will help Pakistan in terms of satellite monitoring of natural disasters and agricultural production, land and resources surveying, and waste handling in a microgravity environment,” said Lan Jianxue, an associate research fellow at the China Institute of International Studies, in an interview with Chinese English-language newspaper the Global Times.

Lan also told the Global Times that beyond the obvious benefits for Pakistani space development, the cooperation agreement will also likely benefit China by allowing it to sell satellite services and applications in China, increase the security of its infrastructure investments there through more active space-based surveillance and connectivity, and burnish its soft power image as a provider of space assistance and public goods to the international community.

During Pakistani Prime Minister Imran Khan’s visit to Beijing in November 2018, Pakistan and China agreed to expand and deepen their collaboration in the areas of new and emerging technologies such as nanotechnology, biotechnology, and information and communications technology, “which can contribute to improved living standards through their applications in the fields of health, agriculture, water, energy and food security.”

Pakistan and China also agreed to promote the 2012-2020 Space Cooperation Outline between the CNSA and SUPARCO. The two countries expressed their satisfaction on the launch of the Pakistan Remote Sensing Satellite (PRSS-1) earlier in 2018, and agreed to further strengthen bilateral cooperation in space technology applications.

A peek into the life and work of Pakistani astrophysicist at NASA, ...

#Israel Consulate in #Mumbai #India Organizes Event on #Hindutva and #Zionism. The poster of the event flaunts images of Zionist leader Theodor Herzl and RSS leader VD Savarkar. #Modi #Kashmir https://indianculturalforum.in/2019/08/22/israel-consulate-in-mumba...

All masks are off and all veneers discarded- the Consulate General of Israel in Mumbai along with one Indo-Israel Friendship Association is organising a public discussion on Hindutva and Zionism on August 26th, at the The Convocation Hall of University of Mumbai. The poster of the event flaunts images of Theodor Herzl and VD Savarkar, and the event has Subramanian Swamy and a professor from the Hebrew University of Jerusalem, Gadi Taub as speakers. So far, Israel’s mission in India spoke the language of bringing technology and building cultural ties. Israel’s agencies, as part of its Brand Israel, have tried to whitewash its occupation, apartheid and settler-colonialism against Palestinians by hosting events, film festivals, etc, in an attempt to deflect attention from its crimes.

However, this time the ruling dispensation in India gives the Israeli embassy the confidence to drop all pretenses. All along, it is the connivance of these ideologies that has brought India and Israel closer in the last half a decade, at the cost of Indian solidarity to Palestine. In this context, we are sharing an excerpt from Sukumar Muralidharan’s essay “The ideological common ground between Hindutva and Zionism”, from the collection From India to Palestine: Essays in Solidarity edited by Githa Hariharan.

As Hindu nationalist ideology moves into its more extreme fringes, its inherent paradoxes stand out with similar starkness. Early pioneers of the ideology articulated these in the confident belief that minor doctrinal inconsistencies would be of no consequence in the mission of facing down a common enemy in Islam. As India under colonial rule lurched from the bitter aftermath of the collapse of the Khilafat agitation into an extended phase of communal estrangement, the notion of a country inhabited by two nations became widely accepted, crystallised especially in two political vehicles: the Hindu Mahasabha and the Rashtriya Swayamsevak Sangh (RSS). A text published in 1939 by M.S. Golwalkar, a year before he took over the leadership of the RSS, remains one of the most authoritative statements on Hindu nationalism, offering rich insights through its comments on contemporary world events into the ideological pantheon it drew sustenance from.

Golwalkar’s statements lauding Nazi Germany for its virulent manifestation of “race pride”, which led to the expulsion of the Jews despite the world recoiling in horror at the enormity of the deed, are widely cited. These offer eloquent testimony in themselves, but only tell the full story when juxtaposed with the observations on Zionism that the same text offers. Golwalkar identifies India as one among the early nations that afforded sanctuary to the Jews after their country passed into Roman tyranny. This was obviously a bond in his rather twisted historical imagination, which persisted into that moment in history when the greater dispersal of the Jews took place, with the “engines of destruction . . . under the name of Islam” being let loose in the land. Palestine, in Golwalkar’s sense, suffered much like India did, losing its culture and traditions on account of the intrusions of Islam “Palestine became Arab, a large number of Hebrews changed faith and culture and language and the Hebrew nation in Palestine died a natural death.” But hope was not lost, since “the attempt at rehabilitating Palestine with its ancient population of the Jews is nothing more than an effort to reconstruct the broken edifice and revitalise the practically dead Hebrew National life.”

#India Loses Contact with #Vikram Lander During Historic #Moon Landing Attempt. Today's possible failure may mark the second time #ISRO has crash-landed a spacecraft on the moon. #Chandrayaan2 https://www.space.com/india-loses-contact-with-vikram-moon-lander-c...

India lost contact with its Vikram lunar lander Friday (Sept. 6) during a daring attempt to make history as the first country to land near the south pole. The landing anomaly may have dashed Indian dreams of becoming just the fourth country to successfully soft-land a spacecraft on the moon.

Long, tense minutes stretched out inside the mission control center for the Indian Space Research Organization (ISRO), which designed the Chandrayaan-2 spacecraft. Prime Minister Narendra Modi had arrived onsite at the ISRO Telemetry, Tracking and Command Network (ISTRAC) in Bengaluru, India, about half an hour before touchdown of the landed component, dubbed Vikram, was scheduled to take place.

That announcement came at 4:48 p.m. EDT (2048 GMT) from K. Sivan, the director of ISRO. "Vikram lander descent was as planned and normal performance was observed up to an altitude of 2.1 kilometers [1.3 miles]," Sivan said in an announcement at mission control. "Subsequently the communications from the lander to the ground station was lost. The data is being analyzed."

Chandrayaan-2 consisted of three components — an orbiter, a lander named Vikram and a rover named Pragyan — which together launched to the moon on July 22 atop a Geosynchronous Satellite Launch Vehicle Mark III (GSLV Mk III) rocket. It took nearly 7 weeks to arrive at its destination; Chandrayaan-2 arrived in lunar orbit on Aug. 20, and the lander separated from the orbiter on Sept. 2 to begin its descent to the lunar surface.

The lander and the rover were designed to spend one lunar day — about 14 Earth days — investigating the lunar surface with a variety of scientific instruments. Both were expected to shutdown come nightfall at the moon's south pole, because they weren't built to withstand to frigid temperatures of the lunar night.

#PallavBagla #India Loses Contact With #Chandrayaan2 #Vikram Moon Lander During Its Descent. “This is all about national (#Hindutva) pride,’’ said Pallava Bagla, co-author of a book about #Indian space exploration and a dedicated space journalist #Modi https://nyti.ms/34qTx7H

India’s attempt to land a robotic spacecraft near the moon’s South Pole on Saturday appeared to end in failure.

The initial parts of the descent went smoothly. But less than two miles above the surface, the trajectory diverged from the planned path. The mission control room fell silent as communications from the lander were lost. A member of the staff was seen patting the back of K. Sivan, the director of India’s space program.

He later announced that the spacecraft was operating as expected until an altitude of 2.1 kilometers, or 1.3 miles. “The data is being analyzed,” he said.

The partial failure of the Chandrayaan-2 mission — an orbiter remains in operation — would delay the country’s bid to join an elite club of nations that have landed in one piece on the moon’s surface.

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An Israeli nonprofit sent a small robotic spacecraft named Beresheet to the moon, but its landing attempt in April went awry in a manner similar to Chandrayaan-2. The initial descent went as planned, but then communications were lost near the surface. It was later discovered that a command to shut off the engine was incorrectly sent.

Chandrayaan-2 launched in July, taking a long, fuel-efficient path to the moon. Earlier this week, the 3,200-pound lander, named Vikram after Vikram A. Sarabhai, the father of the Indian space program, separated from the orbiter and maneuvered toward the moon’s surface.

Fifteen minutes before the planned landing, the Vikram lander was traveling at more than 2,000 miles per hour at an altitude of about 20 miles. Four of its engines fired to quickly slow it down as it headed toward its landing site on a high, flat plain near the South Pole. Later in the landing process, it appeared that Vikram was descending too fast and then data from the spacecraft ended.

The moon is littered with the remains of spacecraft that have tried and failed to land in one piece. Two American craft, from the robotic Surveyor series that helped blaze the trail for Apollo, crashed in the 1960s. Several probes from the Soviet Luna program also collided with the moon’s surface.

Applause swept through viewing parties in Bangalore for most of the lander’s descent. At the command center, scientists rose to their feet as they tracked the mission’s progress. When communication was abruptly lost, Sathya Narayanan, 21, an educator with Astroport, a group in Bangalore that spreads awareness about astronomy, said his heart dropped.

“At this point, it is a partial failure,” he said. “We will push until the end.”

While the mission may briefly soften the muscular nationalism espoused by Mr. Modi, whose government is already facing challenges from job losses and international criticism of his recent moves in the disputed territory of Kashmir, the prime minister tried to reframe Saturday’s landing attempt as an opportunity for improvement in brief remarks after contact was lost.

Hours later and back at the space center in Bangalore, the prime minister greeted the scientists, engineers and staff of the space agency after delivering a motivational speech that was broadcast nationally in India. He stopped short of stating explicitly that the lander had failed.

“We came very close, but we will need to cover more ground in the times to come,” he said.

Later in his address, Mr. Modi added, “As important as the final result is the journey and the effort. I can proudly say that the effort was worth it and so was the journey.”

Space has become a popular topic in India.

#Israel would welcome ties with #Pakistan. The #Muslim giant could become the next success in Israel’s growing acceptance around the world. Should #India worry? https://www.haaretz.com/israel-news/.premium-israel-would-welcome-t...

Behind the scenes, Israel and Pakistan have interacted occasionally. Yet the only public meeting between officials of the two states, the famous handshake between Foreign Minister Silvan Shalom and his Pakistani counterpart Khursheed Kasuri in Turkey on September 1, 2005, did not produce a thaw in the official traditional hostile posture against Israel. This hostility is well rooted in the prevailing Muslim culture in Pakistan. Moreover, the Islamist circles in that country carry considerable political weight and vocally oppose a change in Pakistan’s foreign policy toward Israel.

Nevertheless, the recurrent debates in Pakistan over Israel reflect the latter’s improved international standing. The Pakistanis cannot ignore the shift in attitudes of the Sunni elites in the Arab world toward Israel. When in 1991 the United States convened the Madrid peace conference, all Arab states accepted the invitation and agreed to sit with the Israeli delegation, signaling a greater acceptance of Israel in a U.S.-dominated world. Egypt and Jordan signed peace treaties with Israel. The 1993 Oslo Accords between Israel and the PLO reinforced this trend of political realism.

All Weather Friends: #China and #Pakistan #Space Cooperation. Pakistan’s space program is set to benefit greatly from China’s advanced #technology. Expect to send #Pakistani #astronaut in space soon. @Diplomat_APAC https://thediplomat.com/2020/01/all-weather-friends-china-and-pakis...


In 1962, Pakistan became the third Asian country to launch rockets. ....In September of the same year (1962) , Salam started the Space and Upper Atmosphere Research Commission (SUPARCO) in Karachi, eight years before India formalized its own space agency, the Indian Space Research Organization (ISRO). After that, four top scientists from Pakistan were sent to United States for training at NASA. Salam’s growing eminence in the scientific world won him accolades. He was awarded the Nobel Prize in Physics in 1979, which became a beacon to attract young talents to Pakistan’s space organization.

In 1962, Pakistan became the third Asian country to launch rockets. That year, SUPARCO launched its first rocket, Rehbar I, from the Karachi coast with help from NASA just before India launched its first rocket from Thumba launching station. Despite this headstart, today SUPARCO is a long way behind ISRO due to poor education funding and military leadership interfering in scientific goals.

SUPARCO soon moved its focus to the atomic bomb project, taking key resources and scientists away from space endeavors. But the most drastic fall in the Pakistani space program came between the 1980s and 1990s, when then-President Zia-ul-Haq cut off the funding to major projects such as the communication satellite program. After that, military generals were made leaders in the organization, replacing scientists, and the new focus was on countering India through conventional and nuclear acquisitions. That left little funds to take on some of Pakistan’s more ambitious space projects. By contrast, ISRO launched its first communication satellite in 1981, started technology sharing programs with many countries, and in 1988 unveiled a remote sensing satellite system, which is now the largest in the world. Pakistan, meanwhile, only launched its first satellite, Badr I, in 1990 with the assistance of the Chinese.

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The two countries also signed a 2012-2020 roadmap for space cooperation between SUPARCO and the China National Space Administration (CNSA) in 2012. During Prime Minister Imran Khan’s visit to Beijing in 2018, both countries agreed to move forward with that agreement. As part of their joint collaboration on space missions, Pakistan has expressed its willingness to send a Pakistani astronaut into space on a Chinese spacecraft. At the AirTech conference in December 2017, Air Chief Marshal Sohail Aman stated that Pakistan would send astronauts into space with China’s help by 2020. China has also successfully launched two remote sensing satellites for its “all-weather” friend Pakistan. And in April 2019 China and Pakistan signed an agreement on space exploration, which marks a new phase in space science cooperation between the all-weather allies.

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China has proposed building a “Space Silk Road” to virtually enhance its Belt and Road Initiative (BRI), including the linchpin China-Pakistan Economic Corridor, into a three-dimensional (space, land, and water) super-project. In the Space Silk Road, China’s Beidou satellites would help with navigation from submarines to aircraft and will connect all the BRI countries. Pakistan also requested China’s participation in the development of the Pakistan Remote Sensing Satellite (PRSS). PRSS-1, launched in 2018, is considered yet another flagship project for China-Pakistan relations.

The Rocket & Satellite Company, #Pakistan’s First Private Space Company, Is Ready To Launch. It will offer low-cost solutions in three main areas: space launch systems, satellite manufacturing, and ground segment as a service. #Space #Satellites #Rockets https://spacewatch.global/?p=22477

Pakistan’s first private space company, The Rocket & Satellite Company Limited, announced this week that it has registered with the Securities and Exchange Commission, Government of Pakistan.

The company announced that it will offer low-cost solutions in three main areas: space launch systems, satellite manufacturing, and ground segment as a service. In the long-term, the company plans to offer solutions in the areas of space debris and in-orbit satellite servicing to increase satellite life.

The Rocket & Satellite Company Limited’s space debris solution will reduce the risk of satellite and spacecraft in-space collisions due to space debris, saving significant money for space-based companies. Its focus will be to provide low cost space technology and provide solutions for the issue of space debris through the combined use of artificial intelligence (AI) and space tech.

Additionally, the the company will address in-orbit servicing to increase the lifespan of a satellite by providing platform for scientists, engineers, professionals, and students to offer their skills and serve space industries, ensuring the best solutions for the betterment of humanity.

The Rocket & Satellite Company Limited is based in Karachi and led by CEO Sami Ullah Khan. Further information is available on the company’s website, as well as its social media presence on Twitter and LinkedIn.

THREAD - Shaheen-III SSBM by Shahid Raza

https://twitter.com/schaheid/status/1351886487160287232?s=20

NESCOM's #ShaheenIII entered development in early 2000s. A Solid Fuel Missile, it was competing against Ghauri-III Liquid Fueled Missile by KRL. It was originally envisioned as a Space Launch Vehicle (SLV),but later evolved into a weapon system.


1: Its stated range is 2750km, that puts 100% of Indian territory within its strike range, including Nicobar Islands.

2: Its actual range can however be greater than the stated range. Pakistan normally under-states the ranges of its missiles for geopolitical reasons.

3: It gives Pakistan a highly advanced delivery system to deploy multiple nuclear warheads anywhere in Flag of India in a highly complex Ballistic Missile Defense environment, with next to no reaction time.

4: Its also compatible with the latest generation of Pakistan's nuclear warheads.

5: It provides Pakistan with full spectrum deterrence against a heavily armed adversary.

6: It also opens up the possibility for building a Space Launch Vehicle (SLV) for Space exploration, if and when the Govt decides to do so.

If you found this thread informative, do RT

Shaheen-III outperformed the Ghauri-III and the latter project was canceled in favour of Shaheen-III. The Missile completed its parliamentary phase of development in 2015 when its first test was carried out. After 5 years of further development, it has been tested today.

This test vehicle may have taken 5 years to develop, but it packs some ground breaking technology. It is believed that Shaheen-III is compatible with the Ababeel Multiple Independently Targetable Reentry Vehicle (MITREV), and its commissioned variant will be equipped with it.

It may also incorporate Beidu GPS guidance to drastically improve its Circular Error Probability (CEP), as well as Gas Thrusters installed on its Reentry Vehicle (RV) to maneuver the warhead during mid course, re entry phase to avid interception by Ballistic Missile interceptors.

With the inclusion of MITREV, GPS, Thrust Vectoring and high thrust rocket engines, the Shaheen-III SSBM is nearing commission into the Army Strategic Forces Command (ASFC).

Now that the technical jargon is out of the way let's discuss its implications.

#Pakistan’s Successful Test Of 2,750-kilometer Shaheen-III #Missile: It can reach the farthest points of #India specially the Nicobar & Andaman Islands in Bay of Bengal. Its successful tests and flights open up the possibility of #space exploration– OpEd https://www.eurasiareview.com/18022021-pakistans-successful-test-of...

Quite recently, in January 2021, Pakistan has conducted a successful flight test of Shaheen-III ballistic missile, capable of carrying both nuclear and conventional payloads. It was first tested in 2015 and said to have a range of 2,750 kilometers. This enables it to reach the farthest points of India specially the Nicobar and Andaman Islands in the Bay of Bengal. These Islands hold great strategic significance for India since they are believed to provide assured land-based second-strike options to India.

Similarly, they are also critical for Indian missile testing. Shaheen-III is a medium-range surface-to-surface two staged solid fueled missile equipped with Post Separation Altitude Correction (PSAC) system. Being a solid-fueled missile enables rapid response capability and PSAC allows it to have better trajectory and accuracy with the capability to evade the deployed ballistic missile defence (BMD) systems. Moreover, it can be launched through “Transporter Erector Launcher (TELs), which can move and hide. This makes the launcher more survivable as compared to the fixed launchers. As of now, the missile has not been operationally deployed.

This particular test was conducted by Pakistan to evaluate the design and technical parameters of the Shaheen-III weapon system. Moreover, the Arabian Sea was the point of impact. It was reiterated by Pakistan after the successful test that Pakistan’s nuclear capability is India-centric and the objective of its strategic capability is only to deter “any aggression” against the “sovereignty of Pakistan”. Missile tests in South Asia are routinely exercised as both countries are improving their capabilities of delivery vehicles to maintain the credibility of their deterrence forces. Moreover, they serve the purpose of “signaling” and “readiness” of forces. Just last year, India has conducted 17 missile tests, amid its growing tensions at its northern borders while Pakistan conducted only two missile tests. However, to avoid inadvertent escalation and accidents both countries have the agreement on informing each other before missiles tests. Moreover, Pakistan believes in peaceful co-existence in the region.

Defence analysts believe that the Shaheen-III missile system’s development started in the early 2000s and initially, it was envisaged as a “Space Launch Vehicle (SLV). Therefore its successful tests and flights open up the possibility of space exploration for Pakistan as well. It is also believed that Ababeel, a Multiple Independently re-entry targeted Vehicle (MIRV) missile, is also compatible with the designs of Shaheen-III and II. Ababeel, a three-staged, solid-fueled, medium-range surface-to-surface missile was tested by Pakistan back in January 2017. Successful tests of the Shaheen-III missile system would likely enable Pakistan to acquire MIRV technology to maintain a credible deterrence force vis-à-vis India. To ensure the effectiveness and accuracy of different re-entry vehicles going in different directions, Pakistan has bought large-scale “optical tracking and measurement systems” from China. These systems would allow Pakistan to record high-resolution images of the whole process of missile launch till its impact (launch, stage separation, tail flame, re-entry, and impact).

Who would live and who would die: The inside story of the Iranian attack on Al Asad Airbase - CBS News


https://www.cbsnews.com/news/iranian-attack-al-asad-air-base-60-min...

In January 2020, when the U.S. launched a drone strike to kill Iranian General Qassem Soleimani, 2,000 American troops at Al Asad Airbase in Iraq braced for a retaliatory attack. They thought it probably would be a volley of rockets lobbed into their base, each carrying at most a 60-pound warhead.

Instead, Iran began moving ballistic missiles carrying warheads weighing more than 1,000 pounds into place for a full bombardment. An Army intelligence officer gave Major Alan Johnson his assessment of the Iranian threat: "Their intention is to level this base and we may not survive."

Like many Americans on the base, Johnson, 51, turned on his phone to record a final goodbye for his family: "Just know in your heart that I love you," he tearfully told his 6-year-old son. "Bye buddy."

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Haines, head of the security forces protecting the base, was patrolling in his armored vehicle when the first missile hit just 75 yards away at 1:34 a.m.

It was like "old videos of Hiroshima," Haines said. "The bright light after it exploded, the cloud and the brightness."

The Iranian missiles continued in waves, and Americans left on the ground didn't know when another barrage was coming or where it might land

Johnson was knocked temporarily unconscious by the first blast. "The next thing I recall is our First Sergeant yelling at us . . . 'Everything's on fire. We gotta get out of here!' And that's when I realized, like, the fire was just rolling over the bunkers, you know, like 70 feet in the air . . . It's imperative we get out of the bunker or we're going to burn to death."

Johnson took off across open ground, sprinting for better cover when a loudspeaker blared out another alert: "Incoming! Incoming! Take Cover! Take Cover!" The missiles sounded like freight trains roaring by, he said.

"We get to the next bunker and realize there's roughly 40 people trying to stuff themselves into this bunker that's made for about 10 folks. . . I'm . . . the last person in line. . . and I grabbed the guy in front of me and, like, 'You got to get in the bunker!' and just like – shoved everybody in there."


Army Sergeant Kimo Keltz held his ground in a guard tower on the exposed perimeter of the base. One salvo hit just 30 yards away. Keltz curled into a fetal position to protect his vital organs. The blast wave lifted him two inches off the floor.

When it was over, Keltz and the other Americans emerged from their positions celebrating what seemed to be a miracle – no one was killed and there seemed to be no serious casualties. It would take hours, even days before they realized more than 100 soldiers and airmen suffered traumatic brain injury.

Keltz was one of them "because of how many blasts I took – within such a close radius of me."

Keltz's symptoms were like "someone hitting me over the head with a hammer over and over and over." Doctors have told him he has "concussive syndrome," a condition which may afflict him for the rest of his life.

The Shaheen 1 (Hatf 4) is a Pakistani-Chinese short-range ballistic missile. It can launch a payload of 700 – 1,000 kg to ranges of up to 700 km, and its extended-range variant, the Shaheen 1A, ranges up to 900 km.

https://missilethreat.csis.org/missile/hatf-4/

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Fateh-110 Development

Iran began developing the Fateh-110 in 1995. The missile is 8.86 m long, 0.61 m in diameter, and weighs 3,450 kg. It uses a single-stage solid propellant engine and has a range of 210 km (130 miles), although it is possible that Iran could add extra boosters in order to increase its range to 400 km (249 miles). It can carry a payload of some 500 kg and is most likely intended to deliver a high explosive, chemical, or submunitions warhead. The missile is also assumed to be nuclear / WMD capable.

https://missilethreat.csis.org/missile/fateh-110/

#Pakistan tests home-grown cruise missile with longer range.#Nuclear capable #Babur #cruise #missile tested on Tuesday has a range of more than 900 kilometers (560 miles), twice the distance of an earlier version of the same model. https://www.washingtonpost.com/world/pakistan-tests-home-grown-miss...

Pakistan’s military test-fired a home-grown Babur cruise missile on Tuesday that has a range of more than 900 kilometers (560 miles), twice the distance of an earlier missile of the same model, a statement said.

The missile’s extended range further enhances nuclear-armed Pakistan’s military capability.

Pakistan and neighbor India, which also has a nuclear arsenal, have a volatile relationship, having fought three wars against each other. The military buildup of both countries is closely watched by a nervous international community as India and Pakistan have come dangerously close to a fourth war at least twice over the last two decades.

The missile, dubbed the Babur Cruise Missile 1B, is domestically developed, said the military statement. An earlier version had the limited capacity to travel just 450 kilometers (280 miles).

Turkish Aerospace, Pakistan to jointly develop satellite projects | Daily Sab


https://www.dailysabah.com/business/defense/turkish-aerospace-pakis...

Turkish Aerospace Industries (TAI) signed a cooperation agreement with Pakistan's Space and Upper Atmosphere Research Commission (SUPARCO) on Wednesday to develop space and satellite projects.

Turkish defense giant TAI and SUPARCO will carry out joint studies on electric communication satellites and other space projects within the scope of the agreement.

"We have signed a cooperation deal with the SUPARCO to develop satellite projects. We wish good luck for the two countries,” said TAI in a statement on Twitter.

In Dec. 2019, TAI opened its first office in Pakistan at the country's National Science and Technology Park.

Speaking at the Satellite Technologies Week held in December, TAI CEO Temel Kotil said that they are looking for new customers for the SmallGEO satellite, a telecommunications satellite platform that works with an electric propulsion system.

“It looks like we found a customer, but we don't share it because it has not been finalized. If it does, we will build three more satellites. A fourth customer also showed up. When these are finalized, we will reach five satellites in total,” said Kotil, adding that if TAI made these satellites in three or four years, Turkey would be able to achieve a good figure in satellite exports.

Turkey inked its first satellite export deal with an Argentinian company in August at the International Defense Industries Fair (IDEF) held in Istanbul.

Recently, TAI also signed a memorandum of understanding on space and satellite systems with El Salvador during President Nayib Bukele's Turkey visit last week.

China To Build #Space Centre, More #Satellites For #Pakistan. #China has provided space product & #technology cooperation, satellite carrying or launching services for many countries like #SaudiArabia, Pakistan,#Argentina, #Brazil, #Canada and #Luxembourg.
https://www.ndtv.com/world-news/china-to-build-space-centre-more-sa...

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Full Text: China's Space Program: A 2021 Perspective


http://www.china.org.cn/china/2022-01/28/content_78016843.htm

"It will give priority to developing communications satellites for Pakistan and to cooperating on the construction of the Pakistan Space Center and Egypt's Space City"

"China has increased the BeiDou system's global service capacity by establishing BeiDou cooperation forum mechanisms with the League of Arab States and the African Union, completing the first overseas BeiDou center in Tunisia, and conducting satellite navigation cooperation with countries such as Pakistan, Saudi Arabia, Argentina, South Africa, Algeria, and Thailand"


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Together with relevant partners China has developed and successfully launched the China-France Oceanography Satellite, China-Brazil Earth Resources Satellite 04A, and the Ethiopian Remote-Sensing Satellite. It has launched the Student Small Satellites (SSS) for APSCO. It is jointly developing the MisrSat-2 remote-sensing satellite.

· China completed the in-orbit delivery of the Pakistan Remote-Sensing Satellite (PRSS-1), Venezuelan Remote-Sensing Satellite (VRSS-2), Sudan Remote-Sensing Satellite (SRSS-1), and the Algerian Communications Satellite (Alcomsat-1).

· China has provided satellite carrying or launching services for countries including Saudi Arabia, Pakistan, Argentina, Brazil, Canada, and Luxembourg.

· China has conducted space product and technology cooperation with countries including Russia, Ukraine, Belarus, Argentina, Pakistan, and Nigeria.

· China has helped developing countries boost their space science and research. It has built satellite research and development infrastructure with countries including Egypt, Pakistan and Nigeria. It has pressed ahead with the construction of the Belt and Road Initiative Space Information Corridor, and opened China's space facilities to developing countries.

China's CNSA To Help Asia’s Oldest Space Agency SUPARCO With Satellites

https://eurasiantimes.com/pakistan-china-asias-oldest-space-agency-...


While Beijing and Islamabad have a space exploration agreement, China has formally confirmed for the first time that it will assist Pakistan in the construction of what is being dubbed the Pakistan Space Centre (PSC). PSC is expected to produce satellites.

According to a white paper, China will “provide priority to producing communications satellites for Pakistan and cooperating on the establishment of the Pakistan Space Centre.”

Islamabad announced plans in 2018 to construct the PSC to spearhead indigenous satellite development and manufacture, according to the Associated Press of Pakistan, a state-owned news agency.

APP said that the PSC will be capable of manufacture, testing, system-level assembly, integration, launch, and operations of numerous types of satellites.

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Meet Pakistan's Space Innovator - Bloomberg


https://www.bloomberg.com/news/videos/2022-01-26/meet-pakistan-s-sp...

Meet Pakistan's Space Innovator
"We're out to change mindsets and that is not something easy." Meet Zartaj Ahmed. The engineer-turned-educator wants to transform the way STEM is taught in Pakistan through her space science education center. (Source: Bloomberg)

Turkey close to securing space technology agreements with Pakistan, Azerbaijan
Turkey has expressed intentions to cooperate with Pakistan and Azerbaijan in the field of space technology.

https://www.islamabadscene.com/turkey-to-sign-space-technology-coop...

“Our contracts with Azerbaijan and Pakistan in the field of space activities are ready, we have reached the stage of signing,” Turkish Minister of Industry and Technology Mustafa Varank was quoted as saying by APA.

The minister said Turkey is at the signing stage of agreements with space agencies of Pakistan and Azerbaijan to improve collaboration in the use of space for civilian purposes which requires international cooperation.

Meanwhile, on February 9, Turkish President Recep Tayyip Erdogan announced the country’s ambitious 10-year national space program which includes sending Turkish astronauts into space, developing a new generation of satellites, building a spaceport, and reaching the Moon by 2023 which is the primary and most important mission of the program. In January 2021, SpaceX launched a Turkish communications satellite into orbit.

Pakistan, Turkey and Azerbaijan recently entered into a new phase of a strategic partnership with the visits of Turkey’s Foreign Minister Mevlut Cavusoglu and Azerbaijan’s Foreign Minister Jeyhun Bayramov to Islamabad last month.

The three friendly countries announced to improve collaboration in political, strategic, economic, security, science, and technology fields. The collaboration in space technology will take the partnership to a new level as the future of space will be marked by collaboration.

Pakistan launched its first communications satellite PAKSAT-1R in August 2011 that marked the defining moment in the country’s space program. In 2018, Pakistan launched a remote-sensing (PRSS-1) satellite and a technology evaluation satellite (PakTES-1A) after SUPARCO and the China Great Wall Industrial Cooperation signed a space cooperation agreement.

In 2014, Pakistan became the first foreign country to shift to the China-based GPS system called BeiDou which reduces dependency on Global Positioning System (GPS) by the United States in both civil and military sectors.

Collaboration with China and now Turkey will greatly benefit Pakistan to meet the goals of Pakistan’s Space Program 2047 and the country’s future scientific requirements.

How the algorithm tipped the balance in Ukraine

https://www.washingtonpost.com/opinions/2022/12/19/palantir-algorithm-data-ukraine-war/

Vast data battlefield
The “kill chain” that I saw demonstrated in Kyiv is replicated on a vast scale by Ukraine’s NATO partners from a command post outside the country. The system is built around the same software platform developed by Palantir that I saw in Kyiv, which can allow the United States and its allies to share information from diverse sources — ranging from commercial satellite imagery to the West’s most secret intelligence tools.

This is algorithmic warfare, as Karp says. Using a digital model of the battlefield, commanders can penetrate the notorious “fog of war.” By applying artificial intelligence to analyze sensor data, NATO advisers outside Ukraine can quickly answer the essential questions of combat: Where are allied forces? Where is the enemy? Which weapons will be most effective against enemy positions? They can then deliver precise enemy location information to Ukrainian commanders in the field. And after action, they can assess whether their intelligence was accurate and update the system.

Data powers this new engine of war — and the system is constantly updating. With each kinetic strike, the battle damage assessments are fed back into the digital network to strengthen the predictive models. It’s not an automated battlefield, and it still has layers and stovepipes. The system I saw in Kyiv uses a limited array of sensors and AI tools, some developed by Ukraine, partly because of classification limits. The bigger, outside system can process highly classified data securely, with cyber protections and restricted access, then feed enemy location data to Ukraine for action.

To envision how this works in practice, think about Ukraine’s recent success recapturing Kherson, on the Black Sea coast. The Ukrainians had precise intelligence about where the Russian were moving and the ability to strike with accurate long-range fire. This was possible because they had intelligence about the enemy’s location, processed by NATO from outside the country and then sent to commanders on the ground. Armed with that information, the Ukrainians could take the offensive — moving, communicating and adjusting quickly to Russian defensive maneuvers and counterattacks.

And when Ukrainian forces hit Russian command nodes or supply depots, it’s a near certainty that they have received enemy location data this way. Mykhailo Fedorov, Ukraine’s minister of digital transformation, told me that this electronic kill chain was “especially useful during the liberation of Kherson, Izium, Kharkiv and Kyiv regions.”

What makes this system truly revolutionary is that it aggregates data from commercial vendors. Using a Palantir tool called MetaConstellation, Ukraine and its allies can see what commercial data is currently available about a given battle space. The available data includes a surprisingly wide array, from traditional optical pictures to synthetic aperture radar that can see through clouds, to thermal images that can detect artillery or missile fire.

To check out the range of available data, just visit the internet. Companies selling optical and synthetic aperture radar imagery include Maxar, Airbus, ICEYE and Capella. The National Oceanic and Atmospheric Administration sells simple thermal imaging meant to detect fires but that can also register artillery explosions.

In our Kherson example, Palantir assesses that roughly 40 commercial satellites will pass over the area in a 24-hour period. Palantir normally uses fewer than a dozen commercial satellite vendors, but it can expand that range to draw imagery from a total of 306 commercial satellites that can focus to 3.3 meters. Soldiers in battle can use handheld tablets to request more coverage if they need it. According to a British official, Western military and intelligence services work closely with Ukrainians on the ground to facilitate this sharing of information.

The Military Rockets that Launched the Space Age

https://airandspace.si.edu/stories/editorial/military-rockets-launc...


Rockets launched the Space Age. They provided the power needed to take spacecraft and people on flights beyond the Earth. Starting with the launch of the first satellite Sputnik in 1957 and continuing through today, countries and companies around the globe have built a variety of rockets to travel into space for science, defense, commerce, and tourism.

Early rocket technology for spaceflight from the mid-1940s into the 1960s developed alongside—and in many cases because of—military applications for missiles. In the early Cold War, both the United States and the Soviet Union began building rockets to use as long-range weapons. But this race to build missiles for defense soon turned into a race to build rockets for space exploration. The same rocket that could carry a nuclear warhead could (and sometimes did) also launch spacecraft into orbit. This intense investment in engineering for missiles and rockets sparked off the Space Race.

----------

on October 4, 1957, a Soviet ICBM launched the satellite Sputnik and the Space Age. This event startled the world, giving the impression that America was behind the Soviets in science and technology. Subsequent U.S. launch failures heightened that perception. What began as a competition to build new rockets for defense and militaristic purposes now also became a competition to reach space.

After Sputnik's success, the explosion of Vanguard on its launch pad on December 6, 1957 drew further attention to the Soviet lead in space. America's first success in space came on January 31, 1958, when Explorer 1 was launched aboard an Army Jupiter-C, which was a modified Redstone ballistic missile. In February a second U.S. attempt to launch a Vanguard satellite failed. The American media and Congress demanded to know how the Soviets had beaten the United States into space. One response by the Eisenhower administration and Congress was to establish the National Aeronautics and Space Administration (NASA).

Pakistan has launched six satellites, including the Pakistan Remote Sensing Satellite (PRSS). Pakistan has non-kinetic anti-satellite options, including: Jamming, Spoofing, Meaconing, Laser, High-powered microwave attacks.

https://cscr.pk/explore/themes/defense-security/non-kinetic-anti-sa...'s%20potential%20offensive.


Anti-satellite weapons (ASATs) can be kinetic or non-kinetic. Kinetic ASATs physically crash into satellites. Non-kinetic ASATs use non-physical attacks, such as cyber-attacks, jamming, and blinding satellites with lasers

https://www.space.com/anti-satellite-weapons-asats

No ASAT system has been used in warfare. However, some countries, including China, India, Russia, and the United States, have shot down their own satellites to demonstrate their ASAT capabilities. ASATs have also been used to remove decommissioned satellites.


https://en.wikipedia.org/wiki/Anti-satellite_weapon#:~:text=Althoug....

Space Policy
Volume 47, February 2019, Pages 63-75
Space Policy
Space Programs of India and Pakistan: Military and Strategic Installations in Outer Space and Precarious Regional Strategic Stability
Author links open overlay panel Mian Zahid Hussain, Raja Qaiser Ahmed


Pakistan's Shaheen III ballistic missile has a multi-stage solid-fuel technology that can be used to launch satellites into space. The Shaheen III has a range of 1,700 miles and can hit targets up to 2,750 km away.
It was first test-fired in 2015 and displayed during a military parade in 2016. The Shaheen III is Pakistan's longest-range missile.
Pakistan has kept all tests of the Shaheen III secret. Some speculate that a variant of the Shaheen III could be Pakistan's first space launch vehicle (SLV).


https://www.sciencedirect.com/science/article/abs/pii/S026596461730....

Abstract

U.S. Space Aid to India: On a "Glide Path" to ICBM Trouble?


https://www.armscontrol.org/act/2006-03/features/us-space-aid-india....


President John F. Kennedy was once asked the difference between the Atlas space launch vehicle that put John Glenn into orbit and an Atlas missile aimed at the Soviet Union. He answered with a one-word pun: “Attitude.” The established path to a space launch capability for China, France, the Soviet Union, the United Kingdom, and the United States was to adapt a ballistic missile as a space launch vehicle.

India turned the process around, adapt ing a space launch vehicle as a ballistic missile. In the 1980s, India adapted a space launch vehicle, the SLV-3, to become the Agni medium-range ballistic missile. In keeping with India’s practice of describing nuclear and missile programs as civilian until their military character cannot be denied, India originally claimed that the Agni was a “technology demonstrator.” The Agni program now consists of three missiles with ranges, respectively, of approximately 700, 2,000, and 3,000 kilometers.

For nearly two decades, reports have indicated that India sought to use a simi lar tactic to develop an ICBM.[3] It appears, though, that India may have officially begun the ICBM project (commonly known as the Surya, although sometimes also known as Agni IV) in 1994.[4] Reports cite various dates, perhaps because the project has had several decision points.

Reports generally agree that the Surya program will result in several different missiles with ranges from 5,000 to 20,000 kilo meters.[5] It is widely claimed that the Surya will have the option of a nuclear payload, and sometimes the claim is made that the payload will consist of multiple nuclear warheads.

Reports also generally agree that the Surya will be a three-stage missile with the first two stages derived from the PSLV’s solid-fuel rockets. India obtained the solid-fuel tech nology for the SLV-3 and the PSLV from the United States in the 1960s.[6] India is said to be planning for the third Surya stage to use liquid fuel and to be derived either from the Viking rocket technology supplied by France in the 1980s (called Vikas when India manu factured PSLV stages with the technology) or from a more powerful, Russian-supplied cryogenic upper stage for the Geosynchro nous Satellite Launch Vehicle (GSLV), which is an adaptation of the PSLV.
If the Surya uses PSLV rocket motors, as is most frequently reported, it will be an enor mous rocket with solid-fuel stages 2.8 me ters (about nine feet) in diameter and a total weight of up to 275 metric tons. This would make it by far the largest ICBM in the world, with a launch weight about three times that of the largest U.S. or Russian ICBMs.

There appears to be no literature on Indian plans to harden or conceal the Surya launch site, which would be difficult to do because of the missile’s size and weight. If a cryogenic third stage is used, the launch process will be lengthy. This means that the Surya is likely to be vulnerable to at tack before launch, making it a first-strike weapon that could not survive in a conflict. Indeed, the Surya’s threatening nature and its pre-launch vulnerability would make it a classic candidate for pre-emptive attack in a crisis. In strategic theory, this leads to “crisis instability,” the increased incentive for a crisis to lead to strategic attacks because of each side’s premium on striking first.

The one report of a mobile ICBM based on a combination of PSLV and Agni technology makes more military sense.[7] Yet, as described below, it entails other serious concerns.
Why would India want the Surya? Its reported ranges suggest the answer.

The Shaheen-III is a medium-range ballistic missile with a maximum flight altitude of 692 kilometers. It can strike targets up to 2,750 kilometers away.

https://delhidefencereview.com/2022/06/08/pakistans-quest-for-balli....

--------------

The Kármán line is the boundary between Earth's atmosphere and outer space. It's located at an altitude of 62 miles (100 kilometers) above sea level. The Kármán line is the point where conventional aircraft can't fly.
The international community, including the Fédération Aéronautique Internationale (FAI), considers space to begin at the Kármán line. NASA and the U.S. military consider space to begin at an altitude of 50 miles (around 80 kilometers).
Space is also defined as the lowest altitude at which satellites can maintain orbits for a reasonable time. This altitude is approximately 160 kilometers (100 miles) above the surface.

India Made It to the Moon. That Doesn’t Make It a Top #Industrial Power. #Chandrayaan3Landing will not move big roadblocks on #India’s path to becoming a top industrial power. #Modi's “Make in India” hasn’t done much. #MakeInIndia #manufacturing #BJP
https://www.barrons.com/articles/india-moon-landing-industrial-powe...

India took a giant leap into the ranks of advanced industrial nations when its Chandrayaan-3 unmanned spacecraft landed near the moon’s south pole on Aug. 23. At least to hear Prime Minister Narendra Modi tell it. “Science and technology are the foundations of a bright future for our nation,” the 72-year-old Modi, who is favored to win a third term next year, told ecstatic staff at the Indian Space Research Organization, or ISRO.
----------

Manufacturing’s share of gross domestic product is stuck at about 18%, according to S&P Global. That compares with 28% for China.

Modi’s (not very realistic) target is 25% by 2025. One big obstacle is policy-related: His government remains keen on import tariffs, some of which hit inputs needed to raise exports. “The Indian government has consistently raised tariff and nontariff barriers to protect domestic suppliers across most sectors,” the United States Trade Representative wrote in a recent report.

Another is a lag in transport infrastructure. Indian ports can’t accommodate the biggest container ships, so freight has to be transshipped through Singapore or Hong Kong. “To become the global manufacturing destination of choice, India will need massive upgrades in rail, port, and freight corridors,” write S&P researchers. That won’t happen by gazing at the moon.

Pakistan's first private space company, The Rocket & Satellite Company (TRSC), announced that they will launch their first space launch vehicle on August 14, 2025.

https://spacewatch.global/2020/08/the-rocket-and-satellite-company-...(TRSC,Ullah%20Khan%20in%20Karachi%2C%20Pakistan.

The Rocket & Satellite Company (TRSC), Pakistan’s first private Space Company, announced that they will put their first Space Launch Vehicle into orbit on the 14th August, 2025 from Pakistan. TRSC is a private Commercial Space Company, founded by Sami Ullah Khan in Karachi, Pakistan. It will provide advanced and innovative services, solutions and products for the global Space-tech based market, supporting demanding and challenging missions in orbit and beyond.

According to Sami Ullah Khan, CEO of TRSC, “Our vision is to make life of Space companies easy to offer one solutions under one roof, such as services, solutions and products in Ground Segment, Satellites and Payload Launching domain, … great Space tech services, solutions and products at [an] affordable price for Space companies.”

Pakistan successfully test launches indigenously developed rocket system

https://economictimes.indiatimes.com/news/defence/pakistan-successf...

Pakistan on Tuesday successfully test launched a indigenously developed guided multi-launch rocket system, Fatah-1, capable of precisely delivering conventional warheads deep into "enemy territory."

"The weapon system will give Pakistan Army the capability of precision target engagement deep in enemy territory,"

The Army said the rocket is capable of delivering conventional warheads.

No further details were shared about the rocket system.

President of Pakistan Arif Alvi, Prime Minister Imran Khan, Chairman Joint Chiefs of Staff Committee (CJCSC) General Nadeem Raza, and Chief of Army Staff (COAS) General Qamar Javed Bajwa congratulated the troops and scientists on the successful conduct of flight test.

This was the second flight of Fatah-1, after its first launch in January. At the time, Director General of Pakistan Army, Media Wing, Major General Babar Iftikhar, said Fatah-1 weapon system can hit targets up to a range of 140 km.

Will US sanctions make any difference to Pakistan’s missiles programme?
Pakistan’s missile programme continues despite six rounds of US sanctions in the past three years, experts say.

https://www.aljazeera.com/news/2024/9/15/will-us-sanctions-make-any...

The sanctions name China-based firms Hubei Huachangda Intelligent Equipment Co, Universal Enterprise and Xi’an Longde Technology Development Co, as well as Pakistan-based Innovative Equipment and a Chinese national, for “knowingly transferring equipment under missile technology restrictions”, US State Department spokesperson Matthew Miller said.

According to the US, the Beijing Research Institute of Automation for Machine Building Industry (RIAMB) has collaborated with Pakistan’s National Development Complex (NDC), which Washington believes is involved in developing long-range ballistic missiles for Pakistan.

----
Liu Pengyu, spokesperson for China’s embassy in Washington, said: “China firmly opposes unilateral sanctions and long-arm jurisdiction that have no basis in international law or authorisation of the UN Security Council.”

Missile development continues
The most recent round of sanctions before this one, was announced in April 2024 when Washington blacklisted four companies from Belarus and China for supplying missile-applicable items to Pakistan’s long-range missile programme.

In response to those sanctions, Pakistan’s foreign ministry argued they had been imposed “without any evidence whatsoever” of foreign companies supplying its ballistic missiles programme.

“We reject the political use of export controls,” Mumtaz Zahra Baloch, the foreign office spokesperson said in a statement in April, adding that some countries appear to enjoy exemptions from “non-proliferation” controls. It is understood that this refers to increasing cooperation between the US and the Indian defence sector.


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Tughral Yamin, a former military official and senior research fellow at the Institute of Policy Studies Islamabad (IPSI), suggested the sanctions may be more of a tactic by the US to exert pressure on China.

However, he expressed doubt over their effectiveness. “Pakistan’s missile programme has developed to a point where such repeated sanctions will not hamper our progress. We are far beyond that,” he told Al Jazeera.

Pakistan has maintained a robust missile programme for decades and has also developed nuclear warheads.

---

In Pakistan’s arsenal, the medium-range Shaheen-III, which can carry both conventional and nuclear warheads and can travel as far as 2,750km (1,708 miles), is the country’s longest-range missile.

“[Pakistan’s] missiles, whether conventional or nuclear tipped, serve as a deterrent against India, and this policy has been transparent and consistent, and the deterrence still holds,” he added.

‘Aggressive stance’
US concerns about Pakistan’s missile programme and possible collaboration with China date back to the early 1990s, said Muhammad Faisal, a foreign policy expert and researcher based in Sydney, Australia.

“But it was during President Obama’s second tenure onwards, where the US officials have been calling on Pakistan to exercise restraint in expanding ranges of its ballistic missiles beyond India’s geographical limits,” Faisal said.

With six rounds of sanctions imposed over the past four years, the Biden administration has taken a particularly aggressive stance in targeting entities it believes are supporting Pakistan’s missile programme, Faisal said.

“The nuclear issue remains an irritant in the US-Pakistan relationship and, despite broader improvement in Islamabad-Washington ties, such periodic sanctioning of entities sends a message that the US will continue to deploy both carrots and sticks in its engagement with Pakistan,” he added.

Pakistan's missile program is 'emerging threat', top US official says | Reuters

https://www.reuters.com/world/pakistan-developing-missiles-that-eve...

Pakistan developing long-range missiles that could threaten United States, senior US official says
Pakistan refuses to address why it is developing more powerful rocket engines, senior officials say
US has imposed new sanctions on Pakistan's missile program

Speaking to the Carnegie Endowment for International Peace, (US Deputy National Security Advisor Jon) Finer said Pakistan has pursued "increasingly sophisticated missile technology, from long-range ballistic missile systems to equipment, that would enable the testing of significantly larger rocket motors."

------------------------
"They don't acknowledge our concerns. They tell us we are biased," said the second U.S. official, adding that Pakistani officials have wrongly implied that U.S. sanctions on their missile program are intended "to handicap their ability to defend against India."
Finer included himself among senior U.S. officials who he said repeatedly have raised concerns about the missile program with top Pakistani officials to no avail.
Washington and Islamabad, he noted, had been "long-time partners" on development, counter-terrorism and security.
"That makes us question even more why Pakistan will be motivated to develop a capability that could be used against us.
If those trends continue, Finer said, "Pakistan will have the capability to strike targets well beyond South Asia, including in the United States."
The number of nuclear-armed states with missiles that can reach the U.S. homeland "is very small and they tend to be adversarial," he continued, naming Russia, North Korea and China.
"So, candidly, it's hard for us to see Pakistan's actions as anything other than an emerging threat to the United States," Finer said.
His speech came a day after Washington announced a new round of sanctions related to Pakistan's ballistic missile development program, including for the first time against the state-run defense agency that oversees the program.

-------------
Pakistan denounces US sanctions on its missile program as biased and putting regional peace at risk | AP News

https://apnews.com/article/pakistan-sanctions-ballistic-missiles-sh...
ISLAMABAD (AP) — Pakistan on Thursday denounced new U.S. sanctions on the country’s ballistic missile program as “discriminatory” that put the region’s peace and security at risk.

Pakistan’s foreign ministry warned in a statement that the sanctions “have dangerous implications for strategic stability of our region and beyond.” It also cast doubt on U.S. allegations that targeted businesses were involved in weapons proliferation because previous sanctions “were based on mere doubts and suspicion without any evidence whatsoever.”

It also accused the U.S. of “double standards” for waiving licensing requirements for advanced military technology to other countries.

The sanctions freeze any U.S. property belonging to the targeted businesses and bar Americans from doing business with them.

The U.S. State Department said one such sanctioned entity, the Islamabad-based National Development Complex, worked to acquire items for developing Pakistan’s long range ballistic missile program that includes the SHAHEEN series of ballistic missiles

The other sanctioned entities are Akhtar and Sons Private Limited, Affiliates International and Rockside Enterprise.

U.S. State Department spokesman Matthew Miller said Wednesday on X that the U.S. had “been clear and consistent about our concerns” over such weapons proliferation and that it would “continue to engage constructively with Pakistan on these issues.”

The sanctions were also opposed by the party of Pakistan’s imprisoned former Prime Minister Imran Khan.

Pakistan Joins China's Lunar Mission For Exploring Moon's South Pole

https://www.ndtv.com/world-news/pakistan-joins-chinas-change-8-luna...

In Islamabad's first major involvement in lunar exploration, Pakistan's space agency SUPARCO has joined hands with China for its upcoming Chang'e-8 moon mission in 2028. An indigenous rover built by the Space and Upper Atmosphere Research Commission (SUPARCO) will reportedly join the Chang'e 8 mission, which is part of the larger International Lunar Research Station (ILRS) project.
The collaboration is aimed at contributing to scientific research on the Moon, particularly in the study of its south pole, according to a report by Pakistan Observer.

According to NASA, Chang'e 8 is designed to test technologies necessary for the construction of a lunar science base. It will also conduct surveys and scientific experiments including earth observation, analysis of lunar samples, and test resource utilization techniques to asses sustaining a terrestrial ecosystem in the lunar environment.

As part of a joint mission, Pakistani media said SUPARCO will provide a 35-kilogram rover designed to explore the moon's south pole-- a region known for its challenging terrain and potential scientific discoveries.

"Pakistani rover will play a vital role in advancing lunar surface research, contributing to China's broader goals for lunar exploration," Pakistan Observer quoted a SUPARCO spokesperson as saying.

The latest collaboration between 'ironclad friends' Islamabad and Beijing builds on their previous partnership in space exploration, when Pakistan's iCube Qamar CubeSat satellite successfully entered lunar orbit after being launched aboard China's Chang'e-6 mission in May 2024.

About China's Chang'e-8 Lumar Mission
China's upcoming Chang'e-8 moon mission is reportedly offering an unprecedented amount of space for equipment for other countries.

Per a report by the South China Morning Post, the mission has offered 200kg (440lb) of payload capacity for interested countries. These payloads could be instruments fixed to the lander or items such as robots, rovers and flight vehicles that can work independently after landing, said Wang Qiong, the mission's deputy chief designer.

China National Space Administration had invited letters of intent for the mission in 2023 and said priority would be given to innovative projects, robots which can grab objects from the moon's surface - including lunar soil - and scientific instruments that complement Chinese ones.

China is reportedly working towards the goal of building a base near the moon's south pole around 2035 and the Chang'e-8 mission is aimed at advancing that goal.

How to Survive the New Nuclear Age: National Security in a World of Proliferating Risks and Eroding Constraints

by Vipin narang and pranay vaddi (Indian-American analysts)

Yet another threat comes from Pakistan. Although Pakistan claims its nuclear program is strictly focused on deterring India, which enjoys conventional military superiority, U.S. intelligence agencies have concluded that the Pakistani military is developing an ICBM that could reach the continental United States. In acquiring such a capability, Pakistan might be seeking to deter the United States from either trying to eliminate its arsenal in a preventive attack or intervening on India’s behalf in a future Indian-Pakistani conflict. Regardless, as U.S. officials have noted, if Pakistan acquires an ICBM, Washington will have no choice but to treat the country as a nuclear adversary—no other country with ICBMs that can target the United States is considered a friend. In short, mounting nuclear dangers now lurk in every region of vital interest to the United States.

https://www.foreignaffairs.com/united-states/how-survive-new-nuclea...

--------

In 2009, when U.S. President Barack Obama came into office, nuclear weapons looked increasingly superfluous. As the Cold War faded into history, Moscow and Washington, the world’s two nuclear superpowers, had long been working together to reduce their arsenals. At the same time, after years of protracted conventional wars in Afghanistan and Iraq and the broader “war on terror,” the U.S. defense establishment was far more preoccupied with counterterrorism and counterinsurgency than with nuclear strategy and great-power rivalry. The notion that any other country would attempt to reach nuclear parity with Russia and the United States seemed far-fetched, and American leaders were all too happy to delay an expensive refurbishment of the aging U.S. arsenal. So strong was the consensus that nuclear arms were a relic of a previous era that four top former national security officials—Henry Kissinger, George Shultz, Sam Nunn, and William Perry, not one of them a dove—publicly called for “ending” nuclear weapons “as a threat to the world.”

A decade and a half later, things could not be more different. The United States now faces a Category 5 hurricane of nuclear threats. After decades of maintaining only a minimal nuclear capability, China is on pace to nearly quintuple its 2019 stockpile of some 300 nuclear warheads by 2035, in a quest to attain an arsenal equivalent in strength to Russia’s and the United States’. Far from being a partner in arms reductions, Russia is using the threat of nuclear weapons as a shield for its aggression in Ukraine. Meanwhile, North Korea continues to expand its arsenal, which now includes missiles capable of hitting the continental United States. Iran is closer than ever to producing a nuclear weapon. And in May, the world witnessed India and Pakistan, two nuclear-armed powers, strike each other’s heartlands with conventional weapons in the aftermath of a terror attack, a confrontation that—already unprecedented—could have escalated to a nuclear standoff.

How to Survive the New Nuclear Age: National Security in a World of Proliferating Risks and Eroding Constraints

by Vipin narang and pranay vaddi (Indian-American analysts)


https://www.foreignaffairs.com/united-states/how-survive-new-nuclea...

These multiplying threats have not just brought nuclear strategy back to the center of U.S. defense concerns; they have also introduced new problems. Never before has the United States had to deter and protect its allies from multiple nuclear-armed great-power rivals at the same time. Like Russia, both China and North Korea may integrate nuclear weapons into offensive planning, seeking a nuclear shield to enable conventional aggression against nonnuclear neighbors. Moreover, there is a growing possibility that two or more nuclear powers—for example, China and Russia, or North Korea and Russia—might try to synchronize military aggression against their neighbors, stretching the U.S. nuclear deterrent beyond its means. Finally, the rapid erosion of nuclear guardrails, the diplomatic architecture that has for decades limited proliferation and brought security to dozens of countries under the U.S. nuclear umbrella, has pushed some Asian and European allies to consider acquiring their own nuclear weapons. All this has happened in an era in which the United States’ antiquated nuclear arsenal has fallen into disrepair, with ongoing modernization efforts mired in delays and rampant cost overruns.

This coming nuclear hurricane poses far-reaching challenges. For the first time since the end of the Cold War, Washington will need to develop more, different, and better nuclear capabilities and begin to deploy them in new ways. Given the scale of the problem, nuclear concerns can no longer be treated as a niche issue managed by a small community of experts. Officials at the highest levels of government will need to incorporate them into core defense policy in each of the major theaters of vital interest to the United States: Europe, the Indo-Pacific, and the Middle East. At the same time, Congress will need to back an accelerated effort to overhaul the U.S. arsenal with significant funding and give the project urgent priority, to be able to address not just today’s changing threat environment but tomorrow’s as well. Above all, for the United States to effectively handle a highly volatile and quickly changing nuclear order, nuclear affairs must once again become a central part of American grand strategy.


CHINA’S BIG PLAY
The most momentous shift in the global nuclear weapons landscape is China’s determination to become a nuclear powerhouse. As recently as 2019, the small Chinese arsenal scarcely factored into U.S. nuclear strategy. After first testing nuclear weapons in 1964, Beijing sought nuclear capabilities almost exclusively for defensive purposes and to be able to deter the United States (or the Soviet Union) from nuclear attack and “blackmail.” To achieve these limited goals, Beijing maintained a handful of unfueled intercontinental ballistic missiles and stored the warheads separately—an arrangement that required hours, perhaps days, to prepare the ICBMs for launch. This posture enabled a retaliation-only strategy, accompanied by a “no first use” pledge to the world. As a result, U.S. strategists, both during the Cold War and after, were able to set China’s nuclear forces aside as a “lesser included case” and concentrate on deterring the Soviet Union and its successor, Russia.

Sometime during the last decade, however, Chinese leader Xi Jinping ordered a breathtaking expansion of his country’s nuclear arsenal.

Is Pakistan developing an Intercontinental Ballistic Missile? - Modern Diplomacy

https://moderndiplomacy.eu/2025/07/26/is-pakistan-developing-an-int...

By Fakhar Alam


Any missile that could reach the American mainland from Pakistan must have a range of more than 12000 km. Even that hypothetical missile would be less than half of what is needed to reach the US mainland. It would be irrational and a waste of resources for Pakistan to develop any missile with a range that has no political purpose for the country.

This range limitation of Pakistan is also rooted in its rocket motor technology. Technically, rocket motors act as the heart of a missile system. The larger the diameter of a rocket motor, the greater the distance a missile covers. So far, Pakistan has developed a rocket motor with a diameter of 1.4 meters, and the Shaheen III missile uses this rocket motor. For a missile to cover a distance of more than 12000 km (the distance from Pakistan to the US), this diameter of a rocket motor is far less.

Minimally, Pakistan would need to develop rocket motors with a diameter between 2 and 2.3 meters so its missile can reach the American mainland. Interestingly, there is no publicly available data published by any source that claims that Pakistan has developed rocket motors that have a diameter of more than 1.4 meters. However, in the future, if Pakistan tests a rocket motor having a diameter more than 1.4 meters, it will be either for its space program or for enhancing terminal maneuvering, boosting acceleration, improving the ballistic trajectory, and having additional space for advanced guidance systems of its current missile systems.

Contrary to this, according to international sources, India has not just successfully tested rocket motors that have a diameter of 2.8 meters. But it is also developing a four-stage intercontinental range missile, projected to have a striking range between 12000 and 16000 km, making the American mainland well within its reach.

In international politics, there are no permanent friends or enemies; rather, national interest remains the foremost consideration for every country. What if, in the future, US-India relations diverge due to conflicting national interests? What will America do about the Indian missiles having the American mainland within reach? Why did Vipin Narang, despite his loyalty to American strategic thinking, never openly raise this issue in any of his writings? During the Cold War and the war against terror, America never perceived Pakistan’s capabilities as a direct threat, but with changing geopolitical dynamics, America has started perceiving a direct threat from Pakistan’s alleged capabilities. Simultaneously, what if, in the future, due to some geopolitical shifts, America starts perceiving itself as threatened by India’s capabilities? What will America do then?

For Pakistan, an ICBM carries no strategic utility within the framework of its existing strategic force posture. The development of an ICBM would be incongruent with both the operational logic and doctrinal principles that underpin Pakistan’s nuclear deterrence strategy, which remains fundamentally India-centric and only regionally focused. Integrating an ICBM into its force structure would require a fundamental revision of Pakistan’s national security strategy and a comprehensive reorientation of Pakistan’s nuclear doctrine. Particularly, Pakistan would need to expand its deterrence objectives far beyond the current declared scope. Politically and economically, Pakistan cannot afford this reorientation, at least in the foreseeable future.

The STRATCOM Bureau
@OSPSF
BREAKING:

Pakistan signs $406.4 million dollar contract with China’s PIESAT, a leading satellite manufacturer, to build a Pakistani satellite manufacturing facility, and manufacture an orbital satellite constellation for launch with SUPARCO.

Under the agreement, PIESAT will assist Pakistan in constructing an integrated satellite system for global real-time communication and remote sensing. The first phase includes the launch and operation of 20 satellites, the construction of a satellite manufacturing facility, and the development of supporting software. Piesat will also provide technical support to help Pakistan develop independent capabilities in satellite manufacturing, operations, and applications.

https://x.com/OSPSF/status/1966185602002436499

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Pakistan, China sign $4bn MoUs in agriculture

https://www.dawn.com/news/1940384

ISLAMABAD: Pakistan and China have inked more than two dozen memorandums of understanding (MoU) worth $4 billion in the agriculture sector, focusing on mechanisation, seed development, smart farming and precision agriculture for data-driven productivity gains.

The MoUs were signed on Saturday during the Pak-China Business-to-Business Conference in Beijing, witnessed by Minister for National Food Security and Research Rana Tanveer Hussain.

Speaking on the occasion, Mr Hussain emphasised that these areas are crucial for strengthening Pakistan’s food security while also opening new avenues for bilateral cooperation.

The one-day conference, held on the sidelines of Prime Minister Shehbaz Sharif’s visit to China, featured an opening and closing ceremony as well as multiple business-to-business sessions. The minister participated in a dozen meetings with leading Chinese and Pakistani agri-industry players.

These included Dayu working in irrigation sector, Jessica EV, PIESAT, and LOVOL in agricultural machinery sector, Sanyang Company Xinj­iang, Jinghua Seed Ind­ustry Company Ltd, Guard Agricultural Research and Services (Pvt) Lim­ited, and China State Engineering Construction Corporation GDSP, among others.

Chinese media reports said shares of PIESAT surged after the Chinese aerospace firm signed a $406.4m agreement with Pakistan — nearly double the company’s total revenue last year — to help build a satellite constellation for better communication and Earth data.

Under the agreement, PIESAT will assist Pakistan in constructing an integrated satellite system for global real-time communication and remote sensing. The first phase includes the launch and operation of 20 satellites, the construction of a satellite manufacturing facility, and the development of supporting software. PIESAT will also provide technical support to help Pakistan develop independent capabilities in satellite manufacturing, operations, and applications.

Highlighting China’s $215bn annual agricultural import market, the minister said that Pakistan can play a significant role in supplying tropical and temperate fruits, vegetables, and cereal crops. He stressed that Pakistan, as China’s closest neighbour and a “brotherly country,” offers geographical proximity and competitive pricing advantages compared to imports from Brazil and other Western countries.

He praised the initiatives of both Pakistani and Chinese agricultural companies under the leadership of PM Shehbaz, reaffirming Islamabad’s commitment to fostering long-term agri-sector part­n­erships with Beijing