China Sells Powerful Missile-Tracking System To Pak


Beijing: In an unprecedented deal, China has sold Pakistan a powerful tracking system that could speed up the development of multi-warhead missiles by its all-weather ally, the state-run Chinese Academy of Sciences (CAS) said.

Zheng Mengwei, a researcher with the CAS Institute of Optics and Electronics in Chengdu, Sichuan province, confirmed to the Hong Kong-based South China Morning Post that Pakistan had bought a highly sophisticated, large-scale optical tracking and measurement system from China.

“We simply gave them a pair of eyes. They can use them to look at whatever they want to see, even the Moon,” he said. Zheng said neither he could elaborate on the technology nor where in Pakistan it was being used as it involved the country’s defence interests. He, however, said that the Pakistani military recently deployed the Chinese-made system “at a firing range” for use in testing and developing new missiles. China was the first country to export such sensitive equipment to Pakistan, the CAS said.

The Post report attributed the sale of the equipment to Pakistan to India testing the most advanced nuclear-ready intercontinental ballistic missile (ICBM) Agni-V with a range long enough to hit Beijing or Shanghai. Chinese authorities declassified information about the sale of the tracking system on Wednesday.

The Chinese team that took the tracking system to Pakistan enjoyed VIP treatment during the nearly three months stay to assemble and calibrate it and training technical staff, the CAS statement said. “The system’s performance surpassed the user’s expectations,” it said, adding that it was considerably more complex than Pakistan’s home-made systems. The report did not reveal how much Pakistan paid for the system.

An optical system is a critical component in missile testing. It usually comes with a pair of high-performance telescopes equipped with a laser ranger, high-speed camera, infrared detector and a centralized computer system that automatically captures and follows moving targets. The device records high-resolution images of a missile’s departure from its launcher, stage separation, tail flame and, after the missile re-enters the atmosphere, the trajectory of the warheads it releases.

“The uniqueness of the Chinese-made system lay in its use of four telescope units, more than normally required,” Zheng said. Each telescope, with a detection range of several hundred kilometres, is positioned in a different location, with their timing synchronized precisely with atomic clocks. Together, the telescopes provide visual information of unprecedented detail and accuracy, which missile developers can use to improve designs and engine performance, the CAS said.

Using more telescopes allows the system to track warheads simultaneously from different angles, reducing the risk of losing a target. High-quality optics are essential in missile development, especially MIRVs, said Rong Jili, deputy director at the Beijing Institute of Technology’s School of Aerospace Engineering. Other types of tracking devices, such as radar, can collect more precise data at longer distances, but the Chinese-made optical system provided the intuitive, close-up look at real-life action that missile developers craved, he said.