Latest news with #RemoteSensing
Times of Oman
31-07-2025
- Science
- Times of Oman
China launches new remote-sensing satellite
Beijing: China on Thursday launched the Pakistan Remote-Sensing Satellite (PRSS-1) from the Xichang Satellite Launch Centre in southwest China's Sichuan Province. Launched by a Kuaizhou-1A (KZ-1A) carrier rocket, the PRSS-1 has entered its planned orbit. The satellite will be primarily used in the fields of land resource surveys and disaster prevention and mitigation.
Business Recorder
27-07-2025
- Science
- Business Recorder
Pakistan set to launch advanced Remote Sensing Satellite this week
The Pakistan Space and Upper Atmosphere Research Commission (SUPARCO) has announced to launch Pakistan's Remote Sensing Satellite (PRSS) on Thursday (July 31), from the Xichang Satellite Launch Center (XSLC) in China. This landmark mission marks a significant stride in Pakistan's pursuit of space technology, promising to dramatically expand Earth observation capabilities. Equipped with state-of-the-art imaging systems, the satellite will support a range of national applications — from precision agriculture and urban planning to environmental monitoring and disaster management. Its role will be vital in predicting and mitigating the impacts of floods, earthquakes, landslides, glacier melt, and deforestation, while enabling informed decisions for resource management. The satellite will also assist in infrastructure planning and geospatial mapping under national development programmes such as the China-Pakistan Economic Corridor (CPEC). Pakistan launches first home-made observation satellite With its integration into Pakistan's existing space fleet — including PRSS-1 (2018) and EO-1 (January 2025) — the new satellite strengthens SUPARCO's capabilities and aligns with the goals of the National Space Policy and Vision 2047, positioning Pakistan to emerge as a forward-looking, spacefaring nation. The launch is not just a technical milestone — it is the continuation of a transformative journey. According to the official source, Pakistan's modern space era was reignited in 2011 with the launch of PakSat-1R, a communication satellite developed with Chinese collaboration. That momentum carried forward with PakTES-1A and PRSS-1 in 2018, reinforcing the strategic partnership with China in advancing space science. In 2024, PakSat-MM1 brought high-speed internet to underserved areas, while the launch of iCube Qamar, a student-built satellite from the Institute of Space Technology (IST), captured stunning images of the lunar surface, showcasing the innovation and promise of Pakistan's young scientists on a global stage. Most notably, in January 2025, Pakistan launched its first fully indigenous satellite, Electro-Optical Satellite EO-1, developed entirely by Pakistani engineers and scientists. Designed for agriculture, disaster monitoring, and environmental analysis, EO-1 stood as a bold symbol of Pakistan's growing technological self-reliance. Now, with the launch of the latest remote sensing satellite, Pakistan reaffirms its resolve to harness space technology for national progress, sustainable development, and global recognition- a proud moment in our journey from aspiration to achievement.
India.com
07-05-2025
- Science
- India.com
India's Orbital Arsenal: Operation Sindoor's Secret to Success
On May 7, 2025, India carried out a bold military strike called 'Operation Sindoor,' targeting terrorist bases in response to a grave security threat, much like the one seen in Pahalgam. This precise operation highlights not just India's military strength but also the critical role of its space assets, managed by the Indian Space Research Organisation (ISRO). Far beyond their scientific roots, these satellites and systems are now vital for India's security, diplomacy, and global standing. In the wake of such an operation, India's space programme proves to be a game-changer, ensuring the nation stays vigilant and strong. ISRO has built a world-class space programme, with over 120 satellites launched since 1975 and around 55 active ones today. These include the Indian National Satellite System (INSAT) and GSAT for communication, Indian Remote Sensing (IRS) satellites for earth observation, and the Navigation with Indian Constellation (NavIC) for independent positioning. Originally designed for civilian use, these assets are now crucial for military operations and would have played a key role in 'Operation Sindoor.' Their importance only grows in the post-operation phase, shaping India's response to any challenges. The IRS satellites, India's eyes in the sky, are equipped with high-resolution cameras and radar imaging. During 'Operation Sindoor,' they likely provided detailed images of target areas, helping plan the mission with precision. After the operation, these satellites would keep watch on the region, tracking any troop movements or rebuilding efforts by adversaries. With satellites like Cartosat-2E (offering 0.6-meter resolution) and RISAT-2BR1 (working in all weather), India has a powerful, independent surveillance system. NavIC, India's answer to GPS, is another cornerstone. Covering India and 1,500 km beyond, it provides accurate positioning and timing. In 'Operation Sindoor,' NavIC would have guided assets to their targets with pinpoint accuracy. Post-operation, it would support border monitoring and troop coordination, proving its worth as a reliable national security tool, especially when global systems might not be accessible. The INSAT and GSAT satellites ensure secure, real-time communication. During the operation, they would have connected military units, command centres, and leaders seamlessly. Afterwards, they could help share India's side of the story globally through broadcasts or support diplomacy. They also enable telemedicine and emergency communication, preparing India for any escalation. Beyond security, India's space assets strengthen its global image. An operation like 'Operation Sindoor' would draw worldwide attention, and India's ability to use advanced space technology showcases its progress. ISRO's success in launching over 400 foreign satellites has made India a trusted partner. Sharing satellite data could build stronger alliances, enhancing India's diplomatic reach. India's space programme also reflects its commitment to self-reliance, a value echoed in 'Operation Sindoor.' ISRO's home-grown launch vehicles, like the PSLV and GSLV, ensure India can deploy satellites without depending on others. Successes like Chandrayaan-3 and Aditya-L1 boost national pride and inspire young Indians to pursue science and technology. However, challenges remain. India must protect its satellites from threats like cyber-attacks or anti-satellite weapons, involve the private sector to speed up innovation, and expand its military satellite fleet. Reports suggest plans for 52 dedicated military satellites by 2030, a step in the right direction. In conclusion, India's space assets are the backbone of its security and global standing in the aftermath of 'Operation Sindoor.' From real-time intelligence to precise navigation and secure communication, satellites like IRS, NavIC, and GSAT are force multipliers. They also empower civilians with better connectivity, disaster alerts, and navigation tools. As tensions linger in this scenario, ISRO's satellites stand as India's silent sentinels, watching over the nation. By investing in its space programme, India can cement its place as a global space leader, ready to face any challenge. Key Facts on India's Space Assets: – Active Satellites: ~55, including 18 communication (e.g., GSAT-7 for Navy, GSAT-7A for Air Force), 20 earth observation (e.g., Cartosat, RISAT), 9 NavIC navigation, and 8 scientific satellites. – Military Role: ~15 satellites support defence, with plans for 52 by 2030. In 'Operation Sindoor,' they provided imagery, navigation, and communication. – Civilian Benefits: Improved internet, telemedicine, disaster alerts, and navigation for citizens. – Future Plans: 100–150 more satellites by 2028 for better surveillance and connectivity. – Public Pride: ISRO's cost-effective missions and self-reliance inspire young Indians in STEM. ——- E.O.M (Girish Linganna is a Defence, Aerospace & Geopolitical Analyst based in Bengaluru. He is also Director of ADD Engineering Components India Pvt. Ltd., a subsidiary of ADD Engineering GmbH, Germany. Contact: girishlinganna@ )
Al-Ahram Weekly
08-04-2025
- Science
- Al-Ahram Weekly
Controversy over Pyramid claims - Heritage - Al-Ahram Weekly
Claims that a vast underground city has been discovered beneath the Giza Pyramids have sparked controversy and rejection among Egyptologists, reports Nevine El-Aref The Giza Plateau, home to the iconic Pyramids and the Great Sphinx, has long symbolised ancient ingenuity and human achievement. However, beyond its warm sands and weathered stone structures, a new controversy is beginning to unfold. Late last month, two scientists, Filippo Biondi of the University of Strathclyde in Scotland and Corrado Malanga of the University of Pisa in Italy, claimed that using Synthetic Aperture Radar (SAR) technology they had identified what they described as a vast underground city stretching 2 km beneath the Giza Pyramids. According to their findings, the subterranean complex includes eight distinct vertical, cylinder-shaped structures spanning over 610 m beneath the Pyramid of Khafre. They also reported the presence of various unidentified structures detected at a depth of approximately 1,220 m, among them a structure containing a sarcophagus initially believed to be the tomb of a Pharaoh. These newly identified formations are said to be connected by underground pathways that lead beneath the surface and are believed to reveal hidden chambers and wells beneath the 4,500-year-old Pyramid complex. The scientists claimed that electromagnetic signals were converted into phononic data, which revealed what they interpreted as extensive infrastructure reaching thousands of metres below ground. The eight large vertical features, speculated to be wells or shafts, are believed to stretch over 1,980 m across and extend to depths of 610 m. The team also referenced the so-called 'Halls of Amenti', a mythical feature in Egyptian lore, suggesting it could include the legendary Hall of Records, a secret chamber believed by some to lie beneath the Great Sphinx or elsewhere within the Giza Pyramid complex and containing ancient knowledge about Egypt's earliest civilisation. The findings, made public through a reinterpretation of a scientific paper published in 2022 in the journal Remote Sensing and a video published on YouTube presenting the claim, had garnered thousands of viewers at the time of reporting, reflecting widespread public interest and speculation. Social media platforms lit up with reactions to the alleged discovery, as users on X (formerly Twitter), Instagram, and TikTok shared archived posts expressing fascination and excitement. Many referred to the purported find as 'a vast underground city'. Egyptologist and former minister of antiquities Zahi Hawass firmly rejected the claims, however, stating that the use of radar technology inside the Pyramid of Khafre was 'completely false' and amounted to 'fake news'. He emphasised that both researchers have never come to Egypt to do research, and the techniques cited in their report are neither scientifically approved nor validated by the archaeological community and radar experts. The findings were not peer-reviewed nor made publicly available in scientific journals, he said. 'No radar devices have been used inside the Pyramid,' Hawass confirmed, adding that there is 'no scientific evidence' to support the existence of the underground structures described. He explained that the ancient Egyptians had carved the base of the Pyramid directly from the natural bedrock to a height of approximately eight metres and that no columns or vertical shafts lie beneath it. He wondered about the purposes behind the claims, suggesting that the researchers wanted to argue that the Pyramids were not constructed as royal tombs, but rather as components of a sophisticated ancient power-generating system and that they were built by aliens not the ancient Egyptians. Hawass said that all the 120 pyramids stretching from Giza to Dahshour were built by the ancient Egyptians as royal tombs and national projects. He said that the Wadi Al-Jarf papyri, considered the oldest papyri in the world, is strong evidence that the ancient Egyptians were the Pyramid builders. The papyri contain the diary of Merer, the overseer of workers at Wadi Al-Jarf, 24 km south of Zaafarana and 119 km south of Suez, during the reign of King Khufu, showing how they constructed the Great Pyramid on the Giza Plateau. It tells how the workers transported stones from the Tora Quarry to the Plateau to build the Pyramids. 'These claims are nothing more than an attempt to diminish the achievements of ancient Egyptian civilisation,' Hawass stated. CLAIMS: Mohamed Ismail Khaled, secretary-general of the Supreme Council of Antiquities (SCA), pointed out that the research was authored by two researchers, one of them with a background in electrical engineering and the second a specialist in industrial chemistry. Their study was published in Remote Sensing, a journal issued by a Swiss-based publishing house headquartered in Basel. Neither author holds formal qualifications in Egyptology, archaeology, or even remote sensing, the core discipline of the journal in which their work appeared. Khaled said that Remote Sensing is published by MDPI, a well-known open-access publisher. Under this model, researchers pay publication fees in exchange for making their work freely available to the public. 'While the journal claims to uphold a peer-review process, a closer look at the submission timeline raises questions,' Khaled said, adding that the paper was submitted on 30 August 2022, underwent review by 28 September, and was accepted for publication on 12 October. This turnaround time of approximately six weeks is unusually short for comprehensive peer review, particularly for a paper exceeding 30 pages in length. 'Scholars across disciplines generally recognise that rigorous peer review often requires several months to ensure methodological and scientific soundness,' Khaled said. An identical version of the paper can be found on the academic platform ResearchGate listed with a submission date of 7 October 2020. This earlier version lacks any indication that it underwent peer review, yet it mirrors the final published manuscript in both structure and content. This raises the possibility that the research was published largely unchanged, without substantial input from reviewers or the revisions typically required in academic publishing. 'The use of satellite technology to detect deep subterranean structures, particularly beneath solid stone formations such as the Pyramid of Khafre, presents significant scientific and technical challenges,' Khaled said. He added that the claim that SAR was used to identify corridors and columns at extreme depths under the Pyramid is not only highly speculative but may be technically implausible. 'SAR technology, while effective in certain geospatial applications, does not possess the capability to penetrate dense stone to the degree required for such claims. Although it is theoretically possible to interpret minute ground movements caused by natural seismic activity using the Doppler effect, the practical application of such a technique in this context remains highly questionable,' he said. The study also opens with a number of controversial assertions, including the claim that the Great Pyramid was constructed entirely from granite blocks weighing approximately 2.5 tons each fitted with millimetric precision over a span of just 15 to 30 years. This assumption is fundamentally flawed, as the bulk of the Great Pyramid was constructed from limestone, with granite reserved primarily for interior chambers. Even assuming the scientific methodology is theoretically sound, it must undergo thorough calibration and peer review to be considered valid. The input data used in the modelling software must also be rigorously verified, and both the data and processing methods must be made publicly available to allow independent validation. Publishing only the visualised computer outputs, without disclosing the raw data or computational methodology, undermines the credibility of the findings. In other words, even scientifically robust techniques can produce misleading results if the data input is inaccurate or manipulated to fit a desired narrative, Khaled said. CREDIBILITY: Egyptologists have raised concerns over the credibility of the findings for three reasons. First, the original study was published in 2022 and received little attention at the time, an expected outcome given its lack of scientific rigour and limited relevance. The recent surge in interest appears to stem from viral social media posts in March this year, accompanied by mention of a press conference. However, no reputable academic or scientific institution has claimed involvement or responsibility for such a presentation. Second, there is a significant inconsistency in citing a research paper focused on the Great Pyramid of Khufu within a video that claims discoveries related to the Pyramid of Khafre. If the same technique was used for both sites, despite the method not having been peer-reviewed or scientifically validated, questions arise regarding how the data was collected and why no separate peer-reviewed study was published specifically addressing Khafre's Pyramid. Resorting to social media videos, rather than scholarly publication, further undermines the credibility of the claim. Third, the claim involves the existence of eight cylindrical columns beneath the Pyramid of Khafre, each allegedly 648 m in height. This raises serious questions: how could such a high degree of precision be obtained using satellite imagery to examine what lies beneath the Earth's surface? Surrounding these columns are said to be spiral corridors, suggesting that the Pyramid resembles an oil-production platform resting on eight pillars, each extending 648 m deep, while the actual height of the Pyramid of Khafre above ground is only 136 m. Furthermore, it is claimed that at the base of these columns are two massive chambers, each measuring 80 x 80 m, and that a network of corridors stretching two km connects the Giza Pyramids underground. How were such highly specific underground features measured with satellite technology? If the claims are accurate, which recognised scientific institution conducted this study? And why were these findings not published in a peer-reviewed scientific journal, but instead disseminated through videos on social media platforms? According to Yasser Al-Shayeb, professor of Rock Engineering and its Applications in Archaeology and Heritage at Cairo University and deputy director of the Centre for Archaeological Engineering, dismissed the study as 'neither accurate nor scientific'. 'The geology of the Giza Plateau is well known, thoroughly documented, and understood,' he said, adding that it consists of stratified limestone, which may include small voids or natural fissures, but the idea of massive columns or chambers hundreds of metres underground is scientifically implausible. Furthermore, it is inconceivable that the ancient Egyptians could have excavated and engineered structures of such scale at such profound depths using the tools and techniques available at the time. 'There is no doubt the ancient Egyptians were master builders,' Al-Shayeb acknowledged. 'We have examples of underground chambers in Saqqara and the Valley of the Kings, particularly during the third and fourth dynasties. However, those structures were typically carved at much shallower depths and even those required incredible effort and planning.' He pointed out that beneath the Great Pyramid of Khufu the only known subterranean chamber lies just 30 m below ground, a far cry from the 600 claimed in the controversial paper. 'It's a small space, and there are no inscriptions or records to suggest the existence of vast rooms or pillars. The engineering tools and manpower of the time would not have allowed for the excavation of such extensive and deep systems beneath solid rock,' he said. While new technologies have significantly expanded our ability to explore ancient sites, Al-Shayeb cautioned that they have their limitations. 'We use techniques like thermal imaging, tomography, and geophysical surveys to study these monuments,' he explained. 'But they don't allow for high-resolution imaging at such depths. Even seismic or electrical surveys, as used in the oil industry, cannot detect specific underground objects with the accuracy being claimed.' He also stressed the importance of transparency and scientific rigour in publishing such findings. 'If these claims were legitimate, they should have been published in a credible, peer-reviewed archaeological journal, not disseminated via social media or speculative videos. Moreover, raw data, methodologies, and imaging should be shared with the wider scientific community for validation.' He expressed concerns that such speculative claims dilute the real achievements of Egyptian civilisation and distract from ongoing scholarly efforts. 'The Pyramids are not just monuments; they are a symbol of national pride and global heritage. It's our duty to protect the truth about them, Al-Shayeb concluded. * A version of this article appears in print in the 10 April, 2025 edition of Al-Ahram Weekly Follow us on: Facebook Instagram Whatsapp Short link:
Express Tribune
23-03-2025
- Science
- Express Tribune
Experts dismiss viral claims of underground city beneath Giza pyramids
A recent wave of viral reports claiming the discovery of a vast underground city beneath Egypt's Giza pyramids has been dismissed by leading Egyptologists as scientifically unfounded. The controversy stems from a study presented by Italian researchers Corrado Malanga, Filippo Biondi, and Armando Mei, who claim to have used advanced radar and satellite imaging to detect a subterranean network extending more than 4,000 feet below the pyramids. The team alleges they identified cylindrical shafts and cubic structures forming a hidden complex, potentially linked to the legendary "Halls of Amenti." However, Dr Zahi Hawass, Egypt's former minister of antiquities and a prominent authority on the pyramids, has categorically rejected these findings. Speaking to The National, Hawass called the claims 'completely wrong' and said the techniques used were 'neither scientifically approved nor validated.' He stressed that decades of studies using muon tomography, gravimetry, and conventional radar have revealed no evidence of such vast underground structures. Their earlier research, published in October 2022 in the journal Remote Sensing, made similar claims, including the detection of hidden voids inside the Pyramid of Khafre. The latest findings, however, have yet to be peer-reviewed and were only presented at a briefing in Italy earlier this month, according to Professor Lawrence Conyers, a radar expert at the University of Denver, expressed doubt that the technology used could penetrate the dense limestone of the pyramids to such extreme depths. While he acknowledged that minor underground features may exist, he described the idea of an underground city as 'a huge exaggeration.' Despite the skepticism, the story has gained traction online, drawing millions of views. Experts urge caution, noting that only peer-reviewed, evidence-based research can truly advance our understanding of Egypt's ancient wonders.
