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10 results on '"Madhusudan, Giyyarpuram"'

1. Towards Distributed and Intelligent Integrated Sensing and Communications for 6G Networks

Author

Strinati, Emilio Calvanese, Alexandropoulos, George C., Amani, Navid, Crozzoli, Maurizio, Madhusudan, Giyyarpuram, Mekki, Sami, Rivet, Francois, Sciancalepore, Vincenzo, Sehier, Philippe, Stark, Maximilian, and Wymeersch, Henk

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Information Theory
Abstract

This paper introduces the distributed and intelligent integrated sensing and communications (DISAC) concept, a transformative approach for 6G wireless networks that extends the emerging concept of integrated sensing and communications (ISAC). DISAC addresses the limitations of the existing ISAC models and, to overcome them, it introduces two novel foundational functionalities for both sensing and communications: a distributed architecture and a semantic and goal-oriented framework. The distributed architecture enables large-scale and energy-efficient tracking of connected users and objects, leveraging the fusion of heterogeneous sensors. The semantic and goal-oriented intelligent and parsimonious framework, enables the transition from classical data fusion to the composition of semantically selected information, offering new paradigms for the optimization of resource utilization and exceptional multi-modal sensing performance across various use cases. This paper details DISAC's principles, architecture, and potential applications., Comment: Under review for possible publication in an IEEE Magazine

Published
2024

2. Design and Simulation of a Hybrid Architecture for Edge Computing in 5G and Beyond

Author

Rahimi, Hamed, Picaud, Yvan, Costanzo, Salvatore, Madhusudan, Giyyarpuram, Boissier, Olivier, and Singh, kamal Deep

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Electrical Engineering and Systems Science - Signal Processing
Abstract

Edge Computing in 5G and Beyond is a promising solution for ultra-low latency applications (e.g. Autonomous Vehicle, Augmented Reality, and Remote Surgery), which have an extraordinarily low tolerance for the delay and require fast data processing for a very high volume of data. The requirements of delay-sensitive applications (e.g. Low latency, proximity, and Location/Context-awareness) cannot be satisfied by Cloud Computing due to the high latency between User Equipment and Cloud. Nevertheless, Edge Computing in 5G and beyond can promise an ultra-high-speed caused by placing computation capabilities closer to endpoint devices, whereas 5G encourages the speed rate that is 200 times faster than 4G LTE-Advanced. This paper deeply investigates Edge Computing in 5G and characterizes it based on the requirements of ultra-low latency applications. As a contribution, we propose a hybrid architecture that takes advantage of novel and sustainable technologies (e.g. D2D communication, Massive MIMO, SDN, and NFV) and has major features such as scalability, reliability and ultra-low latency support. The proposed architecture is evaluated based on an agent-based simulation that demonstrates it can satisfy requirements and has the ability to respond to high volume demands with low latency., Comment: Submitted to Special Issue on Smart Edge Computing and IoT of IEEE Transaction on Computers

Published
2020
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3. A Trust Model for Data Sharing in Smart Cities

Author

Cao, Quyet H., Khan, Imran, Farahbakhsh, Reza, Madhusudan, Giyyarpuram, Lee, Gyu Myoung, and Crespi, Noel

Subjects
Computer Science - Computers and Society
Abstract

The data generated by the devices and existing infrastructure in the Internet of Things (IoT) should be shared among applications. However, data sharing in the IoT can only reach its full potential when multiple participants contribute their data, for example when people are able to use their smartphone sensors for this purpose. We believe that each step, from sensing the data to the actionable knowledge, requires trust-enabled mechanisms to facilitate data exchange, such as data perception trust, trustworthy data mining, and reasoning with trust related policies. The absence of trust could affect the acceptance of sharing data in smart cities. In this study, we focus on data usage transparency and accountability and propose a trust model for data sharing in smart cities, including system architecture for trust-based data sharing, data semantic and abstraction models, and a mechanism to enhance transparency and accountability for data usage. We apply semantic technology and defeasible reasoning with trust data usage policies. We built a prototype based on an air pollution monitoring use case and utilized it to evaluate the performance of our solution., Comment: 7 pages, 6 figures in IEEE International Conference on Communications 2016 (ICC 2016)

Published
2016
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5. Policy-based usage control for a trustworthy data sharing platform in smart cities

Author

Reza Farahbakhsh, Noel Crespi, Madhusudan Giyyarpuram, Quyet H. Cao, Orange Labs [Meylan], Orange Labs, Institut Polytechnique de Paris (IP Paris), Réseaux, Systèmes, Services, Sécurité (R3S-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Département Réseaux et Services Multimédia Mobiles (RS2M), and Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)

Subjects
Traceability, Computer Networks and Communications, Computer science, Control (management), Internet of Things, 02 engineering and technology, Computer security, computer.software_genre, Data governance, [INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI], 0202 electrical engineering, electronic engineering, information engineering, Data Protection Act 1998, Trust model, Data protection, 020206 networking & telecommunications, Data sharing, Hardware and Architecture, Privacy, Transparency (graphic), Key (cryptography), Semantic technology, 020201 artificial intelligence & image processing, computer, Software, Smart cities, Data usage control and policy
Abstract

International audience; Although data is a key part in smart cities, traditionally there has been no systematic effort to enable the sharing of data in a trustworthy manner among applications or services. In order to promote sharing of data, mechanisms need to be put into place to provide the different actors - data producers, data consumers, etc. means to control and visualize how their data or requests are being processed and used. In this paper we deal with a key issue involved in trust which is usage control, i.e., how data is used once access to it has been granted. We propose a Data Usage Control Model (DUPO) to capture the diversity of obligations and constraints that data providers impose on the use of their data. Based on the DUPO model and semantic technologies, we propose a trustworthy data sharing platform which enhances transparency and traceability of data usage in smart cities. Lastly a proof-of-concept is developed to evaluate our solution and results show that the performance of the added trust does not impact negatively on the system

Published
2020

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