Indian GPS Programme for Earthquake Studies

25/01/2006

Permanent, Semi-permanent and Campaign-mode GPS Network

In 1998 the Government of India Department of Science & Technology (DST) launched a National GPS Programme for Earthquake Hazard Assessment. The recent major earthquakes in the South East Asian region, and damage caused by the 2004 Tsunami, have demonstrated once again the importance of such a programme. This now includes a network of permanent, semi-permanent and campaign-mode GPS stations, today at an advanced stage of implementation.

Madhav N. Kulkarni, Indian Institute of Technology Bombay, India

The Himalayan region is seismically active and needs monitoring for earthquake hazard. Further, the Peninsular Shield of India can no longer be considered to be seismically inactive, as shown by the Koyna, Latur and Jabalpur earthquakes.

Programme Focus
After the Latur earthquake in 1993 a UN Expert Committee recommended the establishment of dense GPS and precise vertical control for this region to monitor seismotectonic activities. In 1998 the Department of Science & Technology (DST) made material the above recommendations by laun-ching an extensive ‘National GPS for Geodynamics Programme’. A National Committee constituted to oversee the programme reported on activities in February 2005 (DST, 2005, see Further Reading). The entire network will consist of 43 permanent GPS stations, about seven hundred semi-permanent (campaign-mode) GPS stations in the Himalayan regions and the peninsular shield of India, and many more field-GPS stations being established and monitored for local campaigns. The programme focuses on the following issues:

determination of strain fields around different tectonic blocks in areas such as Bhuj, Son Narmada Lineament, North Western and Eastern part of Himalaya, the Khandwa region of Madhya Pradesh, the Ongole area of Andhra Pradesh, and the Great Boundary fault
stability of the South Indian Peninsula
crustal deformation studies along major shear zones
motion and active deformation of India
geodynamic behaviour of Himalaya
crustal deformation studies along Eastern and Western Ghat regions
neotectonic movements, study of active faults, landslides etc
quantitative geomorphology
ionospheric modelling
manpower development in GPS technology, SAR Interferometry and Terrain Modelling using Airborne Lidar.

Campaigns
Permanent GPS Stations have now been set up in thirty locations all over the country. Five are presently under construction, whilst eight are proposed for completion in 2006. In order to estimate regional crustal strains, and to identify and monitor seismically active regions, a network of about 700 semi-permanent GPS Stations is being set up. This covers the entire country, and the spacing between stations is about 40km to 60km. As far as possible, existing stations of the Great Trigonometrical (GT) Triangulation Network of India are included in the network. To study the local crustal deformation process in seismically active areas, campaign-mode studies have been taken up by various participating institutes in eleven areas distributed over the whole of India. A National GPS Data Centre has been established at Survey of India, Dehradun. All the GPS data from permanent, semi-permanent and campaign-mode GPS stations is transmitted to this Data Centre, either in real time via the internet or VSAT-connectivity, or, where a real-time data link is yet to be established, periodically by off-line modes. The data is stored, managed and disseminated to the user community from this Data Centre for further processing.

Concluding Remarks
The National GPS Programme for the Earthquake Hazard Assessment programme will continue to contribute significantly to our understanding of plate motion and crustal deformation in the region. The programme will also contribute to the development of models for earthquake-hazard assessment.

Further Reading

DST, 1998, Report on the National Programme for GPS and Geodetic Studies, Expert Group on GPS, Department of Science & Technology, Govt. of India.
DST (2005) Brochure (Revised) on the National Programme on GPS for Earthquake Hazard Assessment, edited by M. N. Kulkarni, Department of Science & Technology, Govt. of India, January, 2005, also available at: www.civil.iitb.ac.in/~kulkarni/DSTBroFinal.pdf.
Kulkarni, M. N., 2000, Earthquake Monitoring & Other GPS Applications, GIM International, Oct. 2000, Vol.14, pp 23-25.
Kulkarni, M. N., S. Likhar, V.S. Tomar, P. Pillai, 2004, Estimating The Post-Earthquake Crustal Deformations in Gujarat Region of India Using The Global Positioning System, Survey Review, International Journal of Surveying, vol. 37, No. 292, pp 490-497, January.
Kulkarni, M.N., D. Rai, P. Pillai, VS Tomar, 2004, Establishment of a GPS permanent ref. station at Dept. of Civil ENgg., IIT Bombay, India, Acta Geodetica Geophysica, Journal of Hungarian Academy of Sciences, Vol. 39(1), pp 55-59.

Biography of the Author(s)
Dr Madhav N. Kulkarni, Lt. Col. (Retd.) became Professor of Geodesy & Remote Sensing at the Indian Institute of Technology Bombay after taking voluntary retirement from the Army Engineers. An Alumnus of I. I. T. Kharagpur, he served in Survey of India. He completed his master’s and PhD in Space Geodesy at The Ohio State University, USA, whilst on study leave. His membership of national and international committees includes the National GPS Expert Committee of Govt. of India. He specialised in Space Geodesy, Satellite-based Surveying & Mapping, and GPS.

Indian GPS Programme for Earthquake Studies

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