Scientific Program

Conference Series Ltd invites all the participants across the globe to attend 2nd International Convention on Geosciences and Remote Sensing Las Vegas, Nevada, USA.

Day 2 :

Keynote Forum

Bahman Zohuri

Galaxy Advanced Engineering Inc., USA

Keynote: Business Resilience System driven through Boolean, Fuzzy Logics and Cloud Computation

Time : 09:45 AM

OMICS International Geosciences 2017 International Conference Keynote Speaker Bahman Zohuri photo
Biography:

Bahman Zohuri is currently working at the Galaxy Advanced Engineering, Inc. a consulting company that he stared himself in 1991 when he left both semiconductor and defense industries after many years working as a Chief Scientist. After graduating from University of Illinois in field of Physics and Applied Mathematics, he joined Westinghouse Electric Corporation where he performed thermal hydraulic analysis and natural circulation for Inherent Shutdown Heat Removal System (ISHRS) in the core of a Liquid Metal Fast Breeder Reactor (LMFBR) as a secondary fully inherent shut system for secondary loop heat exchange. He was a Consultant at Sandia National Laboratory after leaving United States Navy. He has earned his first Bachelor's degree in Applied Mathematics and his second one in Physics, Master’s degrees in Physics from the University of Illinois and his second Master’s degree in Mechanical Engineering and completed his Doctorate in Nuclear Engineering from University of New Mexico. He has been awarded three patents, published 26 textbooks, published more than 25 papers in reputed journals and has been serving as an Editorial Board Member of repute.

Abstract:

Business resilience system with its risk atom and processing data point based on fuzzy logic and cloud computation in real time. Its purpose and objectives define a clear set of expectations for organizations and enterprises so their network system and supply chain are totally resilient and protected against cyber-attacks, manmade threats and natural disasters. These enterprises include financial, organizational, homeland security and supply chain operations with multi-point manufacturing across the world. Market shares and marketing advantages are expected to result from the implementation of the system. The collected information and defined objectives form the basis to monitor and analyze the data through cloud computation and will guarantee the success of their survivability's against any unexpected threats.

OMICS International Geosciences 2017 International Conference Keynote Speaker Aruna Saxena photo
Biography:

Aruna Saxena has PhD in Architecture using Remote Sensing and GIS technology in 2002. She did Specialization in Advance Remote Sensing and GIS from International Institute of Aerospace Survey and Earth Sciences (ITC), Enschede, the Netherlands in 2006. She has published more about 70 research papers, guided 5 PhD thesis, 12 MTech thesis, authored one textbook on GIS and spatial data published in July 2008, organized various training programs and conferences, and prepared educational films.

Abstract:

India is home to a wide range of water impoundments located in a diversity of climates. The impoundments include natural lakes, wetlands and coastal lagoons, as well as constructed reservoirs and tanks. This research paper provides an overview of the urban lake management in Bhopal, India, focusing on use of geospatial and fuzzy logic techniques. Bhopal upper lake is exhibiting varying degrees of environmental degradation caused by encroachments, eutrophication (from domestic and industrial effluents) and siltation. The high population density ensures that this water body is under severe and direct pressure from anthropogenic activities in their catchments. Actions plans to control and prevent these problems are addressed using fuzzy logic and GIS techniques. The research on evaluation on lake water quality would help decision support system (DSS) for upgrading water bodies and would facilitates urban planner, environmental experts and the community towards the conservation of water bodies.