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AuthorsNumbers in the index correspond to the last two digits of the seven-digit citation identifier (CID) article numbering system used in Proceedings of SPIE. The first five digits reflect the volume number. Base 36 numbering is employed for the last two digits and indicates the order of articles within the volume. Numbers start with 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 0A, 0B…0Z, followed by 10-1Z, 20-2Z, etc. Anderson, Derek T., 0V Astyakopoulos, Alkiviadis, 0S, 0T Balaji, Bhashyam, 08 Barr, Jordi, 08 Bar-Shalom, Yaakov, 02, 03, 04, 05, 09, 1I Baum, Marcus, 06 Bednar, Amy E., 0V Belfadel, Djedjiga, 09 Ben-Dov, R., 02, 04 Bethel, Cindy L., 0V Bhattacharyya, Rajan, 0X Blasch, Erik, 0O Bothos, John M. A., 0R Breton, Daniel J., 18 Brooks, Richard, 0O Carlotto, Mark, 0Z, 10 Chae, Sungwoo, 1J Chan, Alex L., 13, 14 Chen, Chang-Kuo, 1L Cho, Hyun-Woong, 1D Cho, Young-Rae, 1D Christnacher, Frank, 1A Coates, Mark, 0F Daum, Fred, 0I, 0J Daveas, Stelios, 0R Davis, Jeremy E., 0V DeMichele, David, 10 Domrese, Katherine, 03, 1I Durst, Phillip J., 0V Eggleston, Robert G., 0Q Fenstermacher, Laurie, 0Q Freund, Z., 04 Gadsden, S. Andrew, 1E Galustov, G. G., 1G Geibig, Thomas, 1A Goodin, Christopher T., 0V Granström, Karl, 02 Grewe, Lynne L., 0O, 11, 12 Hanebeck, Uwe D., 06 Hart, Carl R., 18 Hengy, Sebastien, 1A Hommes, Alexander, 1A Hovland, Harald, 1B Hsueh, Chi-Shun, 1K, 1L Huang, Jim, 0I, 0J Huber, David J., 0X, 0Y Jitrik, Oliverio, 0M Johannes, Winfried, 1A Jouny, Ismail, 19 Kadar, Ivan, 0O Khosla, Deepak, 0X, 0Y Kim, Hyungsup, 1J Kim, Jinho, 1J Kim, So-Hyeon, 1D Kirubarajan, T., 1E Kloeppel, Frank, 1A Kwasinski, Andres, 0O Kyriazanos, Dimitris M., 0S, 0T Lagali, Christopher, 12 Lanzagorta, Marco, 0M Laurenzis, Martin, 1A Li, Yunpeng, 0F Lu, Qin, 02, 1I Mahler, Ronald, 0C, 0D, 0E Martin, Kevin, 0Y Michaelsen, Eckart, 15 Milgrom, B., 02 Naz, Pierre, 1A Nebrich, Mark, 0Z, 10 Nelson, D. J., 17 Noushin, Arjang, 0I, 0J Overell, William, 11 Oxley, Mark E., 0G, 0H Papadopoulou, Eirini, 0R Park, Sungho, 1J Partila, Pavol, 1C Pattipati, Krishna, 1I Peng, Hsin-Hsien, 1L Pettit, Chris L., 18 Qi, Hairong, 0O Rezac, Filip, 1F Rizogiannis, Konstantinos, 0S, 0T Safarik, Jakub, 1F Salerno, John, 0O Saucan, Augustin-Alexandru, 0F Scherer-Negenborn, Norbert, 15 Schubert Kabban, Christine M., 0G, 0H Schwan, Gabriele, 15 Shirkhodaie, Amir, 13, 14 Shoykhetbrod, Alex, 1A Skroumpelou, Katerina, 0T Song, Woo-Jin, 1D Telagamsetti, Durga, 13 Thanos, Konstantinos-Georgios, 0R, 0S, 0T Thomas, Paul A., 08 Thomopoulos, Stelios C. A., 0O, 0R, 0S, 0T Tovarek, Jaromir, 1C Townsend, J. L., 17 Uhlmann, Jeffrey, 0M Venegas-Andraca, Salvador E., 0M Venzin, Alexander M., 0G Visina, Radu S., 05 Voronin, V. V., 1G White, Kruger, 08 Willett, Peter, 02, 03, 04, 05, 06, 09, 1I Wilson, D. Keith, 18 Won, Jin-Ju, 1D Yang, Kaipei, 04 Yim, Sung-Hyuk, 1D Yu, Wei, 0O Conference CommitteeSymposium Chair Symposium Co-chair Conference Chair Conference Co-chairs
Conference Program Committee
Session Chairs
Introduction to the Invited Panel Discussion“The Impact of Emerging Quantum Information Technologies (QIT) on Information Fusion, and Internet-of-Things” Quantum physics and relativity are the basis of all known fundamental laws of the universe. Although the fundamentals of quantum physics have been well known since the 1920s, in the last few decades several novel consequences of the laws of quantum physics (particularly, in the areas of atomic, molecular and optical physics and quantum computer science and information theory) have been discovered. These developments have attracted the interest of major civilian and defense industries. In particular, the areas of sensing, quantum physics sets the bounds on the sensitivity of sensing - termed the Heisenberg limit - that is orders of magnitude below the sensitivity of current sensors. In the area of computing, it has been observed that a quantum computer allows some computations to be carried out that are unfeasible using current or future classical computing technology. In the area of communication, quantum physics enables provable secure communication and at much higher data rates than those allowed by classical Shannon limit. Many of these advances could have major near-term and long-term consequences in the areas of sensing, such as secure communication, cyber sensing, big data analytics, and machine learning, and hence sensor and information fusion. This leads to the following questions:
The panel brought to the attention of the fusion community the importance of the application of QIT by highlighting issues, illustrating potential approaches, and addressing challenges. A number of invited experts discussed challenges of the QIT processing and research to address these challenges with information fusion. The panelists illustrated parts of the above mentioned areas over different applications and association with information fusion. The panel highlighted impending issues and challenges and used conceptual and real-world related examples associated with the applications of QIT. Bhashyam Balaji Ivan Kadar |
