Author: "Dick, Chris" / Publication Year Range: This year - Searchworks@Jio Institute Digital Library Search Results

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41 results on '"Dick, Chris"'

1. Optimizing Puncturing Patterns of 5G NR LDPC Codes for Few-Iteration Decoding

Author: Wiesmayr, Reinhard, Nonaca, Darja, Dick, Chris, and Studer, Christoph
Subjects: Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract: Rate-matching of low-density parity-check (LDPC) codes enables a single code description to support a wide range of code lengths and rates. In 5G NR, rate matching is accomplished by extending (lifting) a base code to a desired target length and by puncturing (not transmitting) certain code bits. LDPC codes and rate matching are typically designed for the asymptotic performance limit with an ideal decoder. Practical LDPC decoders, however, carry out tens or fewer message-passing decoding iterations to achieve the target throughput and latency of modern wireless systems. We show that one can optimize LDPC code puncturing patterns for such few-iteration-constrained decoders using a method we call swapping of punctured and transmitted blocks (SPAT). Our simulation results show that SPAT yields from 0.20 dB up to 0.55 dB improved signal-to-noise ratio performance compared to the standard 5G NR LDPC code puncturing pattern for a wide range of code lengths and rates., Comment: Accepted at the Asilomar Conference on Signals, Systems, and Computers 2024
Published: 2024

2. A Primer on Generative AI for Telecom: From Theory to Practice

Author: Lin, Xingqin, Kundu, Lopamudra, Dick, Chris, Galdon, Maria Amparo Canaveras, Vamaraju, Janaki, Dutta, Swastika, and Raman, Vinay
Subjects: Computer Science - Networking and Internet Architecture
Abstract: The rise of generative artificial intelligence (GenAI) is transforming the telecom industry. GenAI models, particularly large language models (LLMs), have emerged as powerful tools capable of driving innovation, improving efficiency, and delivering superior customer services in telecom. This paper provides an overview of GenAI for telecom from theory to practice. We review GenAI models and discuss their practical applications in telecom. Furthermore, we describe the key technology enablers and best practices for applying GenAI to telecom effectively. We highlight the importance of retrieval augmented generation (RAG) in connecting LLMs to telecom domain specific data sources to enhance the accuracy of the LLMs' responses. We present a real-world use case on RAG-based chatbot that can answer open radio access network (O-RAN) specific questions. The demonstration of the chatbot to the O-RAN Alliance has triggered immense interest in the industry. We have made the O-RAN RAG chatbot publicly accessible on GitHub., Comment: 7 pages, 6 figures, submitted for possible publication
Published: 2024

3. X5G: An Open, Programmable, Multi-vendor, End-to-end, Private 5G O-RAN Testbed with NVIDIA ARC and OpenAirInterface

Author: Villa, Davide, Khan, Imran, Kaltenberger, Florian, Hedberg, Nicholas, da Silva, Rúben Soares, Maxenti, Stefano, Bonati, Leonardo, Kelkar, Anupa, Dick, Chris, Baena, Eduardo, Jornet, Josep M., Melodia, Tommaso, Polese, Michele, and Koutsonikolas, Dimitrios
Subjects: Computer Science - Networking and Internet Architecture
Abstract: As Fifth generation (5G) cellular systems transition to softwarized, programmable, and intelligent networks, it becomes fundamental to enable public and private 5G deployments that are (i) primarily based on software components while (ii) maintaining or exceeding the performance of traditional monolithic systems and (iii) enabling programmability through bespoke configurations and optimized deployments. This requires hardware acceleration to scale the Physical (PHY) layer performance, programmable elements in the Radio Access Network (RAN) and intelligent controllers at the edge, careful planning of the Radio Frequency (RF) environment, as well as end-to-end integration and testing. In this paper, we describe how we developed the programmable X5G testbed, addressing these challenges through the deployment of the first 8-node network based on the integration of NVIDIA Aerial RAN CoLab (ARC), OpenAirInterface (OAI), and a near-real-time RAN Intelligent Controller (RIC). The Aerial Software Development Kit (SDK) provides the PHY layer, accelerated on Graphics Processing Unit (GPU), with the higher layers from the OAI open-source project interfaced with the PHY through the Small Cell Forum (SCF) Functional Application Platform Interface (FAPI). An E2 agent provides connectivity to the O-RAN Software Community (OSC) near-real-time RIC. We discuss software integration, the network infrastructure, and a digital twin framework for RF planning. We then profile the performance with up to 4 Commercial Off-the-Shelf (COTS) smartphones for each base station with iPerf and video streaming applications, measuring a cell rate higher than 500 Mbps in downlink and 45 Mbps in uplink., Comment: 15 pages, 15 figures, 3 tables. arXiv admin note: text overlap with arXiv:2310.17062
Published: 2024

4. Integrity of the Forgotten.

Author: DICK, CHRIS
Published: 2024

5. FLASH-and-Prune:Federated Learning for Automated Selection of High-band mmWave Sectors using Model Pruning

Author: Salehi, Batool, primary, Roy, Debashri, additional, Gu, Jerry, additional, Dick, Chris, additional, and Chowdhury, Kaushik, additional
Published: 2024
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6. DECIBEL MAGAZINE METAL & BEER FEST: PHILLY 2024.

Author: MUDRIAN, ALBERT, BELLINO, EMILY, WOHLBERG, MICHAEL, DICK, CHRIS, LEE, COSMO, and LAKE, DANIEL
Published: 2024

7. <inline-formula><tex-math notation="LaTeX">$\text{Omni-CNN}$</tex-math></inline-formula>: A Modality-Agnostic Neural Network for mmWave Beam Selection

Author: Salehi, Batool, Roy, Debashri, Jian, Tong, Dick, Chris, Ioannidis, Stratis, and Chowdhury, Kaushik
Abstract: Vehicles today are equipped with different sensors, such as GPS, camera, and LiDAR. We propose Omni-CNN, a machine-learning (ML) based framework that accepts one or more of such available sensor inputs to speed up beam selection in vehicular networks, instead of performing an exhaustive search among all possible beams. Omni-CNN proposes a modality-agnostic approach, where a single shared model can accommodate any combination of these sensor inputs but with appropriate weight-selection masks specific to each modality. In Omni-CNN, we first use the residual capacity of the shared model to learn the predictive task for the current modality. Second, we propose an adaptive algorithm to calculate the required capacity on a per-layer basis and release the excess capacity for the next modalities. In our design, we use the gradients to identify the sparsity constraints that result in minimum capacity usage, while maintaining the accuracy. Third, given the sparsity constraints, we solve an optimization problem to select modality-specific sub-models using Alternating Directions-Method of Multipliers (ADMM) algorithm. Finally, we include decision level aggregation to handle scenarios, where more than one modality is present. Results on a challenging real-world dataset reveal that Omni-CNN reduces the overall model size by 91.4%, while achieving 80.89% accuracy in the prediction of the optimal beam. Furthermore, it reduces the beam selection overhead by 99.37% while retaining 93.34% of the throughput, compared to the 802.11ad standard.
Published: 2024
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