Dr. Vinay Joseph
Dr. Vinay Joseph
Assistant Professor Grade I
Office Address:
ECED-1 : Telecom lab, Department of Electronics and Communication Engineering National Institute of Technology Calicut, Kerala, India
PhD in 2013 from the University of Texas at Austin
M.E. in 2009 from Indian Institute of Science Bangalore
B.Tech in 2007 from National Institute of Technology Calicut.
I am Vinay Joseph. I am an Assistant Professor in ECE Department at NIT Calicut since May 2020.
In addition to teaching, I have experience in research, standardization and commercialization of communication technologies.
My research interests are broadly in topics related to communication networks, analysis and design of resource allocation algorithms, and stochastic optimization. My Google Scholar page is here.
Brief Bio:
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I have been working with PhyTunes Inc as a consultant since May 2021 on enhancing the delivery of 5G/WiFi-6 via wireline links.
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I am a co-inventor of more than 40 granted patents related to areas like 4G, 5G, small cells, URLLC, Industrial IoT, AR/VR, video streaming etc.
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I was with Qualcomm Wireless R&D (San Diego) between 2013-2020, working on small cells (self-configuration, resource/mobility management) and 5G (3GPP) focusing on upper layers, industrial IoT and URLLC.
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I received my PhD in 2013 from the University of Texas at Austin. I received my M.E. in 2009 from Indian Institute of Science Bangalore, and my B.Tech in 2007 from National Institute of Technology Calicut.
Professional Experience
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Qualcomm Wireless R&D (San Diego) between 2013-2020, working on small cells (self-configuration, resource/mobility management) and 5G (3GPP) focusing on upper layers, industrial IoT and URLLC.
Educational Qualifications
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PhD in 2013 from the University of Texas at Austin
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M.E. in 2009 from Indian Institute of Science Bangalore
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B.Tech in 2007 from National Institute of Technology Calicut.
Journals
- Mostafa Khoshnevisan, Vinay Joseph, Piyush Gupta, Farhad Meshkati, Rajat Prakash, Peerapol Tinnakornsrisuphap, 5G Industrial Networks With COMP For URLLC And Time Sensitive Network Architecture, IEEE Journal On Selected Areas In Communications, Vol 37, 2019, P 947-959
- Vinay Joseph, Sem Borst, Martin I Reiman, Optimal Rate Allocation For Video Streaming In Wireless Networks With User Dynamics, IEEE/ACM Transactions On Networking, Vol. 24, 2016, P 820-835
- V. Joseph, G. de Veciana and A. Arapostathis, “Resource Allocation: Realizing Mean-Variability-Fairness Tradeoffs”, IEEE Transactions on Automatic Control, Vol 60, 2015, P 19-33.
- Vinod Sharma, Utpal Mukherji, Vinay Joseph, and Shrey Gupta, “Optimal energy management policies for energy harvesting sensor nodes,” IEEE Transactions on Wireless Communications, 2010.
Conferences
- V. Joseph and G. de Veciana, "NOVA: QoE-driven Optimization of DASH-based Video Delivery in Networks”, IEEE INFOCOM 2014.
- V. Joseph, Sem Borst and Marty Reiman, “Optimal rate allocation for adaptive wireless video streaming in networks with user dynamics”, IEEE INFOCOM 2014.
- V. Joseph and G. de Veciana, “Jointly Optimizing Multi-User Rate Adaptation for Video Transport over Wireless Systems: Mean-Fairness-Variability Tradeoffs”, INFOCOM 2012.
- V. Joseph and G. de Veciana, “Stochastic Networks with Multipath Flow Control: Impact of Resource Pools on Flow-level Performance and Network Congestion”, SIGMETRICS 2011.
- V. Joseph, V. Sharma, and U. Mukherji, “Optimal sleep-wake policies for an energy harvesting sensor node,” in Proceedings of IEEE ICC, June 2009.
- V. Joseph, V. Sharma, and U. Mukherji, “Opportunistic splitting for scheduling via stochastic approximation,” in Proceedings of National Conference on Communications, NCC, January 2010 (received Best Paper Award in Networks Track).
- V. Joseph, V, Sharma, U. Mukherji, M. Kashyap, Joint Power Control, Scheduling And Routing For Multicast In Multihop Energy Harvesting Sensor Networks, ICUMT 2010, Moscow, Russia;
- V. Sharma, U. Mukherji, and V. Joseph, “Efficient energy management policies for networks with energy harvesting sensor nodes,” in Proceedings of 6th Annual Allerton Conference on Communication, Control, and Computing, Sept. 2008.
Granted (with me as co-inventor)
- EP-3831119-B1, Separate measurement and reporting for different transmit receive points, 2023
- EP-3854162-B1, Sps for signaling with non-integer periodicities, 2023
- EP-4005310-B1, Low overhead component carrier selection for multi-component carrier communication, 2023
- US-11728937-B2, HARQ process identifier determination, 2023
- US-11678314-B2, Packet duplication carrier enhancements, 2023
- US-11671970-B2, LCP restriction enhancement, 2023
- US-11665759-B2, MAC-CE design and power headroom considerations for PDCP duplication enhancements, 2023
- US-11653317-B2, Wireless communication enhancements for transparent and boundary clocks, 2023
- US-11627025-B2, Self-adapting autonomous transmission configuration, 2023
- US-11606717-B2, Ethernet header compression techniques in New Radio, 2023
- US-11576172-B2, Multiple configurations with overlapping occasions, 2023
- US-11564129-B2, Context identifier for packet compression, 2023
- US-11546911-B2, Enhancements to support multiple semi-persistent resource allocations per serving cell, 2023
- US-11528742-B2, Systems and methods for autonomous transmission of deprioritized protocol data units, 2022
- EP-3804200-B1, Autonomous reference signal transmission configuration, 2022
- US-11516819-B2, Uplink channel collision resolution for conditional media access control (MAC) layer based prioritization, 2022
- US-11510222-B2, Signaling for protocol data unit preemption, 2022
- US-11470678-B2, Broadcast of multiple physical cell identity ranges, 2022
- US-11470567-B2, Network timing reference synchronization, 2022
- US-11438922-B2, MAC-CE duplication in packet duplication, 2022
- EP-3753368-B1, Configuration, activation and deactivation of packet duplication, 2022
- US-11405859-B2, Enhancement to system information block (SIB) validity check for non-public networks (NPNs), 2022
- US-11357013-B2, Conditional negative acknowledgement transmission in multi-component carrier communication, 2022
- US-11357026-B2, Signaling and medium access control options for preempted scheduling requests, 2022
- US-11349938-B2, Exhanging service capability exposure function (SCEF)-related information of a user equipment, 2022
- US-11297541-B2, Signaling timing information for a time sensitive network in a wireless communications system, 2022
- US-11296838-B2, Cluster-set determination for comp based on reliability and delay budget in URLLC, 2022
- US-11284298-B2, Header compression and decompression management, 2022
- US-11277844-B2, Coordination of semi-persistent scheduling downlink transmissions and dynamic downlink transmissions, 2022
- US-11259233-B2, Signaling port information of user equipment ports in a wireless communication system including a radio access network, 2022
- US-11206114-B2, Sounding reference signals and channel state information reference signals enhancements for coordinated multipoint communications, 2021
- US-11202222-B2, Quality of service mapping for time-sensitive network traffic in a wireless communication system, 2021
- US-11184872-B2, Reference timing delivery to user equipment with propagation delay compensation, 2021
- US-11172397-B2, Timing information for multiple periodic traffic streams sharing a same quality of service, 2021
- US-11172501-B2, Methods and apparatus for signaling offset in a wireless communication system, 2021
- US-11166251-B2, Delivery time windows for low latency communications, 2021
- US-11166267-B2, DCI triggered SRS enhancements, 2021
- US-11129174-B2, User equipment groups for group physical downlink control channel communications, 2021
- US-11115968-B2, System and method for efficient frequency resource assignment in a communication system, 2021
- US-11071100-B2, Techniques and apparatuses for transmitting downlink control information (DCI) on a physical downlink shared channel (PDSCH), 2021
- US-11044730-B2, Multiple semi-persistent scheduled transmission control by a single downlink control information message, 2021
- US-11032704-B2, Techniques for subscription-based authentication in wireless communications, 2021
- US-10904907-B2, Variable packet delay budgets for wireless communications, 2021
- US-10904812-B2, Increasing reliability during multi-connectivity handovers, 2021
- US-10862648-B2, Control elements to configure and trigger sounding reference signals, 2020
- US-10855388-B2, Wireless communication enhancements for transparent and boundary clocks, 2020
- US-10834661-B2, Multiple connectivity for high reliability, 2020
- US-10820326-B2, Resource allocation for reserved resources, 2020
- US-10779277-B2, General authorized access (GAA) primary channel assignment for multiple operators, 2020
- US-10728934-B2, Techniques and apparatuses for managing communications in a private wireless network, 2020
- US-10652815-B2, Techniques and apparatuses for network access via a hybrid cell associated with a shared public land mobile network identity, 2020
- EC4011D Wireless Communication (Monsoon 2023-2024)
- EC4091D Communication Engineering Lab II (Monsoon 2023-2024)
- EC4057D Wireless Technologies and Systems (Winter 2022-2023)
- EC4011D Wireless Communication (Monsoon 2022-2023)
- EC4091D Communication Engineering Lab II (Monsoon 2022-2023)
- EC4057D Wireless Technologies and Systems (Winter 2021-2022)
I was with Qualcomm Wireless R&D (San Diego) between 2013-2020, working on small cells (self-configuration, resource/mobility management) and 5G (3GPP) focusing on upper layers, industrial IoT and URLLC.