Technologies are becoming increasingly complicated and increasingly interconnected. Cars, airplanes, medical devices, financial transactions, and electricity systems all rely on more computer software than they ever have before, making them seem both harder to understand and, in some cases, harder to control. Government and corporate surveillance of individuals and information processing rely largely on digital technologies and artificial intelligence and therefore involve less human-to-human contact than ever before and more opportunities for biases to be embedded and codified in our technological systems in ways we may not even be able to identify or recognize. Bioengineering advances are opening up new terrain for challenging philosophical, political, and economic questions regarding human-natural relations. Additionally, the management of these large and small devices and systems is increasingly done through the cloud, so that control over them is both very remote and removed from a direct human or social control. The study of how to make technologies like artificial intelligence or the Internet of Things “explainable” has become its own area of research because it is so difficult to understand how they work or what is at fault when something goes wrong.

This growing complexity makes it more difficult than ever—and more imperative than ever—for scholars to probe how technological advancements are altering life around the world in both positive and negative ways and what social, political, and legal tools are needed to help shape the development and design of technology in beneficial directions. This can seem like an impossible task in light of the rapid pace of technological change and the sense that its continued advancement is inevitable, but many countries around the world are only just beginning to take significant steps toward regulating computer technologies and are still in the process of radically rethinking the rules governing global data flows and exchange of technology across borders.

These are exciting times not just for technological development but also for technology policy—our technologies may be more advanced and complicated than ever but so, too, are our understandings of how they can best be leveraged, protected, and even constrained. The structures of technological systems as determined largely by government and institutional policies and those structures have tremendous implications for social organization and agency, ranging from open source, open systems that are highly distributed and decentralized, to those that are tightly controlled and closed, structured according to stricter and more hierarchical models. And just as our understanding of the governance of technology is developing in new and interesting ways, so, too, is our understanding of the social, cultural, environmental, and political dimensions of emerging technologies. We are realizing both the challenges and the importance of mapping out the full range of ways that technology is changing our society, what we want those changes to look like, and what tools we have to try to influence and guide those shifts.

We do extensive research on mobile computing and complex algorithm implementation in real-life applications. We did a research collaboration with the Islamic University of Madinah, Saudi Arabia. Still, we are doing research on Smartphone Usability Studies and User Experience.

Our Research work has been published in many International Journals & conferences.

  • Rajibul Anam, Abdelouahab Abid. (2020). Greedy Algorithm based Health Care Resources Management System in the times of a Pandemic, International Journal of Emerging Trends in Engineering Research, 8(6), 2513-2522.
  • Rajibul Anam, Abdelouahab Abid. (2020). Smartphones’ Calling Application Usability Improvement for People with Special Needs, International Journal of Advanced Trends in Computer Science and Engineering, 9(3), 3544–3555.
  • Rajibul Anam, Abdelouahab Abid. (2020). Usability Study of Smart Phone Messaging for Elderly and Low-literate Users, International Journal of Advanced Computer Science and Applications, 11(3), 108-115.
  • Rajibul Anam, Md. Syeful Islam, Mohammad Obaidul Haque. (2015). Hidden Object Detection for Computer Vision Based Test Automation System. WSEAS Transactions on Computers, 14, 570-579.
  • Rajibul Anam, Mostafizur Rahman, Mohammad Obaidul Haque and Md. Syeful Islam. (2015). Computer Vision Based Automation System for Detecting Objects. International Journal of Intelligent Systems and Applications (IJISA), 7(10).
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2014). GreedyAdapter: Flexible Web Content Adaptation for Mobile Devices. International Journal of Information and Network Security, 3(3).
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2014). Tree Adapt: Web Content Adaptation for Mobile Devices. International Journal of Information Technology and Computer Science, 6(9), 1-13.
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2012). Flexi-adaptor; An Automated Web Content Adaptation for Mobile Devices. International Journal of Digital Information and Wireless Communications. 1(3), 693-707.
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2011). Web Content Adaptation for Mobile Devices: A Greedy Approach. International Journal on New Computer Architectures and Their Applications. 1(4), 1051-1066.
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2011). Flexi-adaptor: A Nobel Approach for Adapting Web Content for Mobile Devices. International Conference on Communications in Computer and Information Science (Springer International Publishing AG). 254(2), 149-163.
  • Rajibul Anam, Chin Kuan Ho and Tek Yong Lim. (2011). A Greedy Approach for Adapting Web Content for Mobile Devices. International Conference on Software Engineering and Computer Systems (Springer International Publishing AG). 179(5), 244-258.