惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

V
V2EX
爱范儿
爱范儿
Martin Fowler
Martin Fowler
T
The Blog of Author Tim Ferriss
B
Blog RSS Feed
博客园 - 聂微东
G
GRAHAM CLULEY
Engineering at Meta
Engineering at Meta
Threat Intelligence Blog | Flashpoint
Threat Intelligence Blog | Flashpoint
WordPress大学
WordPress大学
Scott Helme
Scott Helme
AI
AI
S
Security Affairs
T
Threat Research - Cisco Blogs
M
MIT News - Artificial intelligence
T
Troy Hunt's Blog
H
Hackread – Cybersecurity News, Data Breaches, AI and More
人人都是产品经理
人人都是产品经理
AWS News Blog
AWS News Blog
T
Threatpost
Cyberwarzone
Cyberwarzone
www.infosecurity-magazine.com
www.infosecurity-magazine.com
U
Unit 42
V
Vulnerabilities – Threatpost
J
Java Code Geeks
博客园 - Franky
月光博客
月光博客
Blog — PlanetScale
Blog — PlanetScale
NISL@THU
NISL@THU
D
Docker
小众软件
小众软件
N
News and Events Feed by Topic
Microsoft Security Blog
Microsoft Security Blog
Y
Y Combinator Blog
A
Arctic Wolf
D
DataBreaches.Net
云风的 BLOG
云风的 BLOG
Forbes - Security
Forbes - Security
量子位
PCI Perspectives
PCI Perspectives
美团技术团队
K
KPMG report finds enterprise disconnect between AI and its ROI | CIO
I
InfoQ
Security Archives - TechRepublic
Security Archives - TechRepublic
有赞技术团队
有赞技术团队
腾讯CDC
P
Proofpoint News Feed
S
Security @ Cisco Blogs
G
Google Developers Blog
C
Cisco Blogs

Business Tech News: Latest Updates on Innovations, Startups, and Market Trends | The HinduBusinessLine

Geo-engineering against climate change ZincGel vs Li-ion battery Why the energy sector isn’t AI-ready yet IT services giant TCS takes an AI-led avatar IIT-M revives forgotten route to industrial wastewater treatment IIT-Kanpur-incubated start-up develops unique battery technology Two faces of water Why the made-in-India ePlane is unique Moving satellite data at laser speed Longer-lasting zinc battery How simulation tech can ready robots for the real world DAE commissions world’s first nuclear heat-based copper-chlorine hydrogen plant DAE commissions world’s first nuclear heat-based copper-chlorine hydrogen plant Subterranean forest of fungi Using sound waves to bypass charge-based circuits AI aides to decode Indian law How the US funding cut impacts cancer research The time to deploy thorium is now The protein-peptide bonds that heal How plants summon help Fishing out fake news using a deep-learning neural network IIT-Madras sets up testing tank for ships, submarines Dentistry’s prehistoric drill With AI, science is borderless How ‘spent’ graphite breathes new life into fuel cell Coal gas can yield clean hydrogen at $1.25 a kg Light, compact antennas IMD launches pilot weather forecast within 1 km radius in UP, national roll out in 2-3 years Nationwide ban soon on Paraquat herbicide over toxicity concerns, health risks ParvAI: ‘Windows to the soul’ and workplace safety Why agreeable AI is a liability in competitive markets Indian material for magnet making Using lasers to punch holes in cell walls When the grid becomes an all-knowing data system Micro-mining for critical rare earth minerals Half the capex, less carbon: The molten magic inside Tata Steel’s HIsarna bet Cosmic aid for miners Efficient brakes and EV range India contributes ₹745 crore to multi-country ITER Big budgets, slow science: BARC under-spends on R&D Artemis-2: Hurtling moon-ward on an epochal mission Power supply lessons for AI Why nuclear fusion is gaining funding Defence research stays underfunded Micro attacks on sewer lines Turning the ubiquitous optical fibre into a sensor The PRAGYA tokamak Mind-reading tech No exam is too hard for AI? Carnot battery: Carbon dioxide as ideal ‘working fluid’ On a leash of light On a wing and an AI-powered tool How do ‘natural polypills’ work? AI tool for capturing and managing hospital records How sea microbes can protect agri fields Why India should choose to build not just powerful, but also governable AI Flaring and quaking Qualcomm has an Edge in India Soil testing of rhizosphere CMFRI achieves captive breeding of threatened mangrove clam No erasures RDI scheme could be operationalised this year IIT-M’s ramjet shell is an engineering marvel Sun-powered supercapacitor 10 years on, NALCO yet to start gallium extraction project Budget doubles allocation for nuclear research to ₹2,410 cr Underwater water Recent successes in science-led atmanirbharta Electric mobility may take wing in the not-too-distant future Eco-friendly semiconductors Twinning prayers and AI at mega temple festival Solar cells of efficiencies above 30% A lesson from Germany on infrastructure maintenance Fabled city in the high mountains Optimising bioreactor design Sensing UV-C in femtoseconds ISRO to kick off 2026 with launch of Earth Observation Satellite Thriving in extremes Indo-Lankan leg-up for S&T Using AI to better assess cyclone damage War on drug resistance goes undersea Big, bad business of junk food Rosatom’s mini variant of small modular reactor Clear thinking on pranayama Can GenAI be a responsible teaching assistant? Pharma PLI fetches ₹26,832 cr sales ‘Scripting’ ideal AI output Honeywell’s technology may bring biomass to the centre stage India-made human-like robot Scorched by 163-year drought NTT’s quantum leap into near sci-fi realm A reality check on AI’s negotiation skills Salinity-proof epoxy coating for marine installations Heat from small-scale solar units could accelerate India’s net-zero transition Cross-species transplantation is at a regulatory crossroads Nature, the ultimate climate warrior Breakthrough in desalination technology, using carbon ‘flowers’ Epidemiology-ML collab decodes India’s struggles with air quality
IIT-Kanpur hosts India’s first DORIS beacon
By M Ramesh · 2026-06-01 · via Business Tech News: Latest Updates on Innovations, Startups, and Market Trends | The HinduBusinessLine
ELITE NETWORK. The DORIS ground station at IIT-Kanpur

ELITE NETWORK. The DORIS ground station at IIT-Kanpur | Photo Credit: admin

The setting up of India’s first DORIS ground beacon at Indian Institute of Technology, Kanpur, is an important but somewhat under-the-radar step in India’s space and earth observation capabilities. DORIS — short for ‘Doppler orbitography and radio-positioning integrated by satellite’ — is a French system that tracks satellites and ground stations with centimetre-level accuracy.

The beacon at IIT-Kanpur is part of a global network of DORIS ground stations. Satellites carrying DORIS receivers use signals transmitted from these beacons to calculate their own position precisely. Because a satellite moves very fast overhead, the frequency of the signal changes slightly due to the Doppler effect — the same effect that makes a passing train horn sound different as it moves away. By measuring these tiny frequency shifts from beacons around the world, the satellite can calculate its exact position and speed.

This accuracy is crucial for missions involving ocean altimetry, climate studies, mapping the earth’s gravity field, monitoring sea-level rise and glacier movement, tracking tectonic shifts, and precise satellite orbit determination.

A satellite measuring ocean height, for instance, may detect just a few millimetres of change per year. That measurement becomes meaningful only when scientists can know the satellite’s orbit with centimetre-level accuracy. Otherwise, they cannot tell whether the ocean rose, or whether the satellite drifted slightly. DORIS helps remove that uncertainty.

The system has been used in major international satellite missions such as Jason, Sentinel, CryoSat and the Indo-French SARAL/AltiKa.

The beacon at IIT-Kanpur strengthens India’s role in global space geodesy — the science of precisely measuring the earth’s shape, rotation and gravitational behaviour — and deepens Indo-French cooperation in the space sector.

Systems like GPS, VLBI (radio astronomy timing), laser ranging and DORIS together form the backbone of modern earth measurement.

Benefits for India

“The establishment of the DORIS beacon in India represents enhances the national geodetic infrastructure and participation in the global geodetic community,” says Prof Onkar Dikshit of IIT-Kanpur.

“It will help establish a highly accurate and stable national terrestrial reference framework for surveying, mapping, infrastructure development, satellite navigation, disaster management, smart city planning, and other strategic applications,” he said. In addition, the Indian subcontinent is tectonically active due to the interaction between the Indian and Eurasian plates, making continuous geodetic monitoring critically important for understanding crustal deformation, intraplate tectonics, land subsidence, uplift, and seismic hazards, he said.

Accurate geodetic monitoring can aid urban subsidence assessment in rapidly growing cities, improve floodplain mapping, and enhance coastal vulnerability assessments in regions affected by sea-level rise and cyclones. The data products derived from DORIS-supported satellite missions can contribute to precision agriculture, water resource management, glacier monitoring in the Himalayas, and early warning systems for natural hazards such as earthquakes, landslides, and floods.

Enhanced satellite orbit determination also improves the quality of remote sensing products used in weather forecasting, environmental monitoring, fisheries management, and maritime navigation, directly benefiting societal planning and sustainable development initiatives.

Beyond national applications, the DORIS station strengthens India’s contribution to international Earth observation and climate research programmes. The inclusion of India within the global DORIS network fills an important geographic gap in the international space geodetic observing system and enhances the robustness of global reference frame realisation. By hosting such advanced geodetic infrastructure, IIT-Kanpur positions India as an active contributor to the global space geodesy community while simultaneously advancing indigenous capabilities in satellite geodesy, precise positioning, and earth system science.

How IIT Kanpur got in

In 2022, the International DORIS Service (IDS) announced a global call for proposals to establish a new DORIS station, and the proposal submitted by IIT-Kanpur was evaluated by the IDS Selection Committee against several technical and scientific criteria. These included network coverage and tectonic plate contribution, co-location with other geodetic instruments, antenna environment, monument stability, maintenance and security provisions, host institution capability, and prospects for scientific collaboration.

One of the major strengths of the IIT-Kanpur proposal was its strategic geographic location on the northern part of the Indian tectonic plate, addressing a significant gap in the current DORIS network. At present, the only operational DORIS station located on the Indian plate is the MALE station in the Maldives, while the Everest station lies near the Indian–Eurasian plate boundary. The DORIS station at the National Centre for Geodesy (NCG) at IIT-Kanpur will provide improved spatial coverage for monitoring inter-plate and intra-plate tectonic deformation across the Indian region. The station will also enable integrated geodetic studies using both DORIS and GNSS observations for crustal motion and reference frame applications.

A key motivation behind the selection of IIT-Kanpur was the existing technical strength and proposed future plans related to space geodesy at the NCG , along with the significant geographic gap in the existing DORIS network across the Indian region, where no DORIS station is today co-located with other major space geodetic techniques, particularly GNSS.

Published on June 1, 2026