-------- Forwarded Message -------- Subject: [AISWorld] Call for Book Chapters: "Quantum Computing Inspired IoT Applications", Taylor & Francis Date: Sun, 17 Apr 2022 14:54:20 +0000 From: Editorial Manager journaleditorialmanager@outlook.com To: aisworld@lists.aisnet.org aisworld@lists.aisnet.org

Apologies if multiple copies of this call are received

----------------------------- Call for Book Chapters -----------------------------

** Quantum Computing Inspired IoT Applications **

CRC Press, Taylor & Francis Group, USA

Important Dates - Proposal Submission: May 15, 2022* - Proposal (Acceptance/Rejection): Within 2days of submission - Full Chapter Submission: August 15, 2022 - Full Chapter (Acceptance/Rejection): September 10, 2022 - Complete Chapter Submission (to editors): October 1, 2022 - Submission of Chapters (to publisher): November 1, 2022 - Publication Time: Q3/2023 (estimated)

Quantum computing is viewed by many as a possible future option for tackling these high complexity or seemingly-intractable problems by complementing classical computing with a fundamentally different compute paradigm. To mitigate the issues, the network can be assembled and integrated with the quantum computing technology. Quantum computing therefore has the potential for speedups that are large enough to make previously-intractable problems tractable.

Quantum computing will help organizations address big challenges much faster than they could otherwise. Quantum computing-Inspired IoT refers to the use of quantum computing for the computation of machine learning algorithms with internet of things applications. With the computational advantages of quantum computing, quantum computing-inspired IoT can now achieve results that were not possible with classical computers. The incredible growth in approaching this milestone was made possible in the iterative learning process through IoT, blockchain, neural networks, machine learning, and deep learning methodologies.

Book co-editors intend to invite experts and successful case participating members to contribute discussions on topics related to performance, benchmarking, durability, robustness, as well data gathering in IoT networks using quantum computing techniques.

* Topics Topics include, but are not limited to, the following:

Basics of IoT, Blockchain and Quantum Computing Quantum Computing and Blockchain base Network Security Quantum Computing based Big Data Analytics and Machine Learning Parallel and Distributed Computing using Quantum Computing Use of Quantum Computing in Data Analytics Environment Quantum Computing approach to decision making and problem solving Deep learning based Quantum Computing for Security Quantum Computing based business analytics Shaping the Wireless Network using Quantum Computing Association of Quantum Computing with Network Protocols Computational Neuroscience and Quantum Computing Embodying Blockchain, the Internet of Things and Quantum Computing Routing and Security mechanisms in the IoT environment using Quantum Computing Empirical data and research techniques contributed to IoT using Quantum Computing Quantum Computing based blockchain modelling techniques by using neural network, machine learning and deep learning Quantum Computing oriented Applications of IoT using deep learning technologies

* Proposal submission A proposal for book chapter is needed from prospective authors before the proposal *submission due date*, describing the objective, scope and structure of the proposed chapter (no more than 5 pages). Acceptance of chapter proposals will be communicated to lead chapter authors after a formal double-blind review process, to ensure relevance, quality and originality. The submission of chapter proposals should be done via easychair https://easychair.org/conferences/?conf=qci2a2022.

* Book Editors Asis Kumar Tripathy, Vellore Institute of Technology, Vellore, asistripathy@gmail.commailto:asistripathy@gmail.com

Chiranji Lal Chowdhary, Vellore Institute of Technology, Vellore, prof.chowdhary@gmail.commailto:prof.chowdhary@gmail.com

Kuan-Ching Li, Providence University, Taiwan, kuancli@gm.pu.edu.twmailto:kuancli@gm.pu.edu.tw

* Additional Information Inquiries and chapter proposal submissions can be forwarded electronically by email, to: Asis Kumar Tripathy (email-asistripathy@gmail.commailto:email-asistripathy@gmail.com), Chiranji Lal Chowdhary (email-prof.chowdhary@gmail.commailto:email-prof.chowdhary@gmail.com), and Kuan-Ching Li (email: kuancli@gm.pu.edu.twmailto:kuancli@gm.pu.edu.tw) _______________________________________________ AISWorld mailing list AISWorld@lists.aisnet.org