Journal of Artificial Intelligence Research & Advances

Abstract

The world’s attention today is on climate change that is no more just a perceived risk. Climate change is already impacting livelihoods; and by impacting the vulnerable regions and the communities more than others, may also be aggravating economic and social inequalities. Effective climate governance, therefore, requires better data collation and analysis thereof. Early warning signals of the impending change must not only be received but also distributed through strong institutional frameworks. While significant progress is evident in this direction, the limitations of those in charge of governance have also been evident. Due to this, increasingly, there is a trend of inter-governmental and inter-organizational partnerships along with higher engagement of communities to better adapt to climate change.

Keywords: Artificial intelligence, climate change, climate governance

Cite this Article

Satinder Bhatia. Artificial Intelligence for Better Climate Governance. Journal of Artificial Intelligence Research & Advances. 2017; 4(3): 37–43p.

Agrawal, A., Konenen, M. and Perrin, N. The Role of Local Institutions in Adaptation to Climate Change. World Bank Publication, paper no. 118, June 2009

Crane, T. A. The role of local institutions in adaptive processes to climate variability: The cases of southern Ethiopia and southern Mali. Oxfam Policy and Practice: Climate Change and Resilience; 9(1), pp 5-38, January 2013

In-Sung, Yeon and Sang-Jin, Ahn. A Development of Real Time Artificial Intelligence Warning System Linked Discharge and Water Quality (II) Construction of Warning System. Journal of Korea Water Resources Association, 38(7), pp 575-584, July 2005

Jones, L., Champalle, C., Chesterman, S., Cramer, L., & Crane, T. A. Identifying constraining and enabling factors to the uptake of medium-and long-term climate information in decision making. CCAFS Working Paper no. 113. Copenhagen, Denmark, 2015.

Khan, S., Rana, T., Dassanayake, D., Abbas, A., Blackwell, J., Akbar, S., & Gabriel, H. F. Spatially distributed assessment of channel seepage using geophysics and artificial intelligence. Irrigation and Drainage, 58(3), pp 307-320, July 2009

Lorincz, K., Malan, D. J., Fulford-Jones, T. R., Nawoj, A., Clavel, A., Shnayder, V. and Moulton, S. Sensor networks for emergency response: challenges and opportunities. IEEE pervasive Computing, 3(4), 16-23, October 2004

Sadilek, A., Kautz, H., DiPrete, L., Labus, B., Portman, E., Teitel, J., and Silenzio, V. Deploying nEmesis: Preventing foodborne illness by data mining social media. In Twenty-Eighth IAAI Conference, March 2016

Salini, R., Xu, B., and Lenngren, C. A. Application of Artificial Intelligence for Optimization in Pavement Management, International Journal of Engineering and Technology Innovation, 5(3), pp 189-197, July 2015

Sundararajan S. and Suryagoda, N. Emerging Trends in Mainstreaming Climate Resilience in Large Scale, Multi-Sector Infrastructure PPPs. PPPIAF, World Bank Group, January 2016

Tang, H. W., Lei, Y., Lin, B., Zhou, Y. L., & Gu, Z. H. Artificial intelligence model for water resources management. Proceedings of the ICE-Water Management, 163(4), pp 175-187, June 2010.

Accenture’s Technology Vision for Insurance, 2017. Available at https://www.accenture.com/in-en/insight-insurance-technology-vision-2017

Accenture’s Banking Technology Vision, 2017. Available at https://www.accenture.com/us-en/insight-banking-technology-vision-2017