Sudeep Palat scite author profile

Sudeep Palat

5Publications

18Citation Statements Received

2Citation Statements Given

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Affiliations

Intel (United States), Intel (United Kingdom)

Publications

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6G Cloud-Native System: Vision, Challenges, Architecture Framework and Enabling Technologies

Ding

Tong

et al. 2022

IEEE Access

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Every generation of wireless technologies needs to bring a set of new system capabilities to enable future applications and services, the sixth generation mobile system (6G) is no exception. This paper provides an overview of the technology transformation from the communication-centric the forth generation mobile system (4G) and the fifth generation mobile system (5G) to the compute-centric 6G with the cloud-native system framework as the foundation of the next generation technologies. We explain what 6G plans to achieve, the fundamental reasons for this technology transformation, the architecture framework and enabling technologies to achieve 6G cloud-native technology objectives. This paper intends to provide a technical deep dive on the 6G cloud-native system to trigger more discussions, innovations and bring the technology transformation from concept to reality.

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Future evolution of 3G networks

Tatesh¹,

Palat²

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The work on the future evolution of 3G systems is taking momentum in the wireless research community. The UMTS system was standardised in 1999 and contained basic capabilities such as but is not limited to, UTRA FDD and TDD modes, GSM based evolved core network, AMR speech codec, Multimedia Messaging Service (MMS), Location services, a broad range of supplementary services, Open Service Architecture (OSA) and telecommunication management [ 11. The need for improved spectral efficiency, network optimizations and new services has motivated continued enhancements of 3G.The first phase of evolution to the UMTS system started immediately in the form of enhancements on these topics. The UMTS Release 5 system contained some of these enhanced better service capabilities like the initial phase o f the IP Multimedia Subsystem (IMS), Wideband AMR, OSA enhancement, Global Text Telephony, Location Services enhancements, etc. features for higher utilisation of spectral efficiency like High Speed Downlink Packet Access (HSDPA), Intelligent Antenna (IA), network optimization features like IP transport in the UTRAN (IP-RAN), connection of RAN to multiple Core Networks (Iu-flex), etc. HSDPA enabled the UMTS system to achieve higher throughput and high peak data rate up to 14Mbps [2]. IMS allowed rich set of multimedia services defined in the TETF like shared White Boards to be used over UMTS.With the first commercial launch of UMTS, as new application areas for UMTS are realized and network limitations better understood, additional enhancements are found necessary. The second phase of evolution is a continuation of the first phase with emphasise on service enablers as well as UL spectral efficiency. Multimedia multicast services (MBMS) is looking at defining point to multipoint bearers to send multimedia services such as football replays to several users in a cell over one radio bearer [3]. Enhancements to the Uplink Dedicated channel are being studied to improve spectral efficiency and reduce delays [4]. Multiple Input Multiple Output is another technique being considered for higher spectral efficiency [5]. IP based services and transport networks are expected to be increasingly adopted in the enhanced 3G networks [ 6 ] . Distributed UTRAN Architecture aims to exploit the IP transport network to improve system performance [7]. Service enhancements' like Optimised Voice over IP, Push to Talk over Cellular and OSA enhancements are all candidates for the next phase. Network sharing enhancements will allow Service providers to offer innovative services without having to own a radio access network or spectrum.In addition, a parallel approach to enhanced spectral efficiency using OFDM access is being studied. Enhanced OFDM access scheme combined with enhanced IP architecture makes a very attractive and powerful system that may lead to become a candidate for the next 4G system. However, it is not yet clear what shape 4G will take except that it will not be a one thing, Air Interface or Network; nor it seems it will converge to one Globa...

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Mobility performance optimization for 3GPP LTE HetNets

Sivanesan¹,

Zou²,

Vasudevan³

et al. 2015

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Multicasting in UMTS

Palat¹,

Weerasekera²,

Casati³

2002

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5GSystem Overview

Speicher¹,

Sirotkin

Palat

et al. 2020

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Sudeep Palat

6G Cloud-Native System: Vision, Challenges, Architecture Framework and Enabling Technologies

Future evolution of 3G networks

Mobility performance optimization for 3GPP LTE HetNets

Multicasting in UMTS

5GSystem Overview

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