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19 results on '"Kapoor, Shipra"'

1. Federated Meta-Learning for Traffic Steering in O-RAN

Author

Erdol, Hakan, Wang, Xiaoyang, Li, Peizheng, Thomas, Jonathan D., Piechocki, Robert, Oikonomou, George, Inacio, Rui, Ahmad, Abdelrahim, Briggs, Keith, and Kapoor, Shipra

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

The vision of 5G lies in providing high data rates, low latency (for the aim of near-real-time applications), significantly increased base station capacity, and near-perfect quality of service (QoS) for users, compared to LTE networks. In order to provide such services, 5G systems will support various combinations of access technologies such as LTE, NR, NR-U and Wi-Fi. Each radio access technology (RAT) provides different types of access, and these should be allocated and managed optimally among the users. Besides resource management, 5G systems will also support a dual connectivity service. The orchestration of the network therefore becomes a more difficult problem for system managers with respect to legacy access technologies. In this paper, we propose an algorithm for RAT allocation based on federated meta-learning (FML), which enables RAN intelligent controllers (RICs) to adapt more quickly to dynamically changing environments. We have designed a simulation environment which contains LTE and 5G NR service technologies. In the simulation, our objective is to fulfil UE demands within the deadline of transmission to provide higher QoS values. We compared our proposed algorithm with a single RL agent, the Reptile algorithm and a rule-based heuristic method. Simulation results show that the proposed FML method achieves higher caching rates at first deployment round 21% and 12% respectively. Moreover, proposed approach adapts to new tasks and environments most quickly amongst the compared methods., Comment: 7 pages, 3 figures, 2 algorithms, and 3 tables

Published
2022

2. Transmit Power Control for Indoor Small Cells: A Method Based on Federated Reinforcement Learning

Author

Li, Peizheng, Erdol, Hakan, Briggs, Keith, Wang, Xiaoyang, Piechocki, Robert, Ahmad, Abdelrahim, Inacio, Rui, Kapoor, Shipra, Doufexi, Angela, and Parekh, Arjun

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

Setting the transmit power setting of 5G cells has been a long-term topic of discussion, as optimized power settings can help reduce interference and improve the quality of service to users. Recently, machine learning (ML)-based, especially reinforcement learning (RL)-based control methods have received much attention. However, there is little discussion about the generalisation ability of the trained RL models. This paper points out that an RL agent trained in a specific indoor environment is room-dependent, and cannot directly serve new heterogeneous environments. Therefore, in the context of Open Radio Access Network (O-RAN), this paper proposes a distributed cell power-control scheme based on Federated Reinforcement Learning (FRL). Models in different indoor environments are aggregated to the global model during the training process, and then the central server broadcasts the updated model back to each client. The model will also be used as the base model for adaptive training in the new environment. The simulation results show that the FRL model has similar performance to a single RL agent, and both are better than the random power allocation method and exhaustive search method. The results of the generalisation test show that using the FRL model as the base model improves the convergence speed of the model in the new environment., Comment: 7 pages, 5 figures. This paper has been accepted by 2022 IEEE 96th Vehicular Technology Conference (VTC2022-Fall)

Published
2022

3. Variational Autoencoder Assisted Neural Network Likelihood RSRP Prediction Model

Author

Li, Peizheng, Wang, Xiaoyang, Piechocki, Robert, Kapoor, Shipra, Doufexi, Angela, and Parekh, Arjun

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing
Abstract

Measuring customer experience on mobile data is of utmost importance for global mobile operators. The reference signal received power (RSRP) is one of the important indicators for current mobile network management, evaluation and monitoring. Radio data gathered through the minimization of drive test (MDT), a 3GPP standard technique, is commonly used for radio network analysis. Collecting MDT data in different geographical areas is inefficient and constrained by the terrain conditions and user presence, hence is not an adequate technique for dynamic radio environments. In this paper, we study a generative model for RSRP prediction, exploiting MDT data and a digital twin (DT), and propose a data-driven, two-tier neural network (NN) model. In the first tier, environmental information related to user equipment (UE), base stations (BS) and network key performance indicators (KPI) are extracted through a variational autoencoder (VAE). The second tier is designed as a likelihood model. Here, the environmental features and real MDT data features are adopted, formulating an integrated training process. On validation, our proposed model that uses real-world data demonstrates an accuracy improvement of about 20% or more compared with the empirical model and about 10% when compared with a fully connected prediction network., Comment: 6 pages, 4 figures. This paper has been accepted for publication in PIMRC 2022

Published
2022

4. Sim2real for Reinforcement Learning Driven Next Generation Networks

Author

Li, Peizheng, Thomas, Jonathan, Wang, Xiaoyang, Erdol, Hakan, Ahmad, Abdelrahim, Inacio, Rui, Kapoor, Shipra, Parekh, Arjun, Doufexi, Angela, Shojaeifard, Arman, and Piechocki, Robert

Subjects
Computer Science - Machine Learning, Computer Science - Networking and Internet Architecture
Abstract

The next generation of networks will actively embrace artificial intelligence (AI) and machine learning (ML) technologies for automation networks and optimal network operation strategies. The emerging network structure represented by Open RAN (O-RAN) conforms to this trend, and the radio intelligent controller (RIC) at the centre of its specification serves as an ML applications host. Various ML models, especially Reinforcement Learning (RL) models, are regarded as the key to solving RAN-related multi-objective optimization problems. However, it should be recognized that most of the current RL successes are confined to abstract and simplified simulation environments, which may not directly translate to high performance in complex real environments. One of the main reasons is the modelling gap between the simulation and the real environment, which could make the RL agent trained by simulation ill-equipped for the real environment. This issue is termed as the sim2real gap. This article brings to the fore the sim2real challenge within the context of O-RAN. Specifically, it emphasizes the characteristics, and benefits that the digital twins (DT) could have as a place for model development and verification. Several use cases are presented to exemplify and demonstrate failure modes of the simulations trained RL model in real environments. The effectiveness of DT in assisting the development of RL algorithms is discussed. Then the current state of the art learning-based methods commonly used to overcome the sim2real challenge are presented. Finally, the development and deployment concerns for the RL applications realisation in O-RAN are discussed from the view of the potential issues like data interaction, environment bottlenecks, and algorithm design., Comment: 7 pages, 4 figures

Published
2022

5. Smart Interference Management xApp using Deep Reinforcement Learning

Author

Eskandari, Mahdi, Kapoor, Shipra, Briggs, Keith, Shojaeifard, Arman, Zhu, Huiling, and Mourad, Alain

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Interference continues to be a key limiting factor in cellular radio access network (RAN) deployments. Effective, data-driven, self-adapting radio resource management (RRM) solutions are essential for tackling interference, and thus achieving the desired performance levels particularly at the cell-edge. In future network architecture, RAN intelligent controller (RIC) running with near-real-time applications, called xApps, is considered as a potential component to enable RRM. In this paper, based on deep reinforcement learning (RL) xApp, a joint sub-band masking and power management is proposed for smart interference management. The sub-band resource masking problem is formulated as a Markov Decision Process (MDP) that can be solved employing deep RL to approximate the policy functions as well as to avoid extremely high computational and storage costs of conventional tabular-based approaches. The developed xApp is scalable in both storage and computation. Simulation results demonstrate advantages of the proposed approach over decentralized baselines in terms of the trade-off between cell-centre and cell-edge user rates, energy efficiency and computational efficiency.

Published
2022

6. RLOps: Development Life-cycle of Reinforcement Learning Aided Open RAN

Author

Li, Peizheng, Thomas, Jonathan, Wang, Xiaoyang, Khalil, Ahmed, Ahmad, Abdelrahim, Inacio, Rui, Kapoor, Shipra, Parekh, Arjun, Doufexi, Angela, Shojaeifard, Arman, and Piechocki, Robert

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Machine Learning
Abstract

Radio access network (RAN) technologies continue to evolve, with Open RAN gaining the most recent momentum. In the O-RAN specifications, the RAN intelligent controllers (RICs) are software-defined orchestration and automation functions for the intelligent management of RAN. This article introduces principles for machine learning (ML), in particular, reinforcement learning (RL) applications in the O-RAN stack. Furthermore, we review the state-of-the-art research in wireless networks and cast it onto the RAN framework and the hierarchy of the O-RAN architecture. We provide a taxonomy for the challenges faced by ML/RL models throughout the development life-cycle: from the system specification to production deployment (data acquisition, model design, testing and management, etc.). To address the challenges, we integrate a set of existing MLOps principles with unique characteristics when RL agents are considered. This paper discusses a systematic model development, testing and validation life-cycle, termed: RLOps. We discuss fundamental parts of RLOps, which include: model specification, development, production environment serving, operations monitoring and safety/security. Based on these principles, we propose the best practices for RLOps to achieve an automated and reproducible model development process. At last, a holistic data analytics platform rooted in the O-RAN deployment is designed and implemented, aiming to embrace and fulfil the aforementioned principles and best practices of RLOps., Comment: 17 pages, 6 figrues

Published
2021
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7. Self-play Learning Strategies for Resource Assignment in Open-RAN Networks

Author

Wang, Xiaoyang, Thomas, Jonathan D, Piechocki, Robert J, Kapoor, Shipra, Santos-Rodriguez, Raul, and Parekh, Arjun

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Artificial Intelligence, C.2.3, I.2.8
Abstract

Open Radio Access Network (ORAN) is being developed with an aim to democratise access and lower the cost of future mobile data networks, supporting network services with various QoS requirements, such as massive IoT and URLLC. In ORAN, network functionality is dis-aggregated into remote units (RUs), distributed units (DUs) and central units (CUs), which allows flexible software on Commercial-Off-The-Shelf (COTS) deployments. Furthermore, the mapping of variable RU requirements to local mobile edge computing centres for future centralized processing would significantly reduce the power consumption in cellular networks. In this paper, we study the RU-DU resource assignment problem in an ORAN system, modelled as a 2D bin packing problem. A deep reinforcement learning-based self-play approach is proposed to achieve efficient RU-DU resource management, with AlphaGo Zero inspired neural Monte-Carlo Tree Search (MCTS). Experiments on representative 2D bin packing environment and real sites data show that the self-play learning strategy achieves intelligent RU-DU resource assignment for different network conditions.

Published
2021

9. Transmitting Video-on-Demand Effectively

Author

Garg, Rachit Mohan, Kapoor, Shipra, Kumar, Kapil, and Ansari, Mohd. Dilshad

Subjects
Computer Science - Multimedia
Abstract

Now-a-days internet has become a vast source of entertainment & new services are available in quick succession which provides entertainment to the users. One of this service i.e. Video-on-Demand is most hyped service in this context. Transferring the video over the network with less error is the main objective of the service providers. In this paper we present an algorithm for routing the video to the user in an effective manner along with a method that ensures less error rate than others., Comment: 5 pages

Published
2010

12. Federated Meta-Learning for Traffic Steering in O-RAN

Author

Erdol, Hakan, primary, Wang, Xiaoyang, additional, Li, Peizheng, additional, Thomas, Jonathan D., additional, Piechocki, Robert, additional, Oikonomou, George, additional, Inacio, Rui, additional, Ahmad, Abdelrahim, additional, Briggs, Keith, additional, and Kapoor, Shipra, additional

Published
2022
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13. RLOps: Development Life-Cycle of Reinforcement Learning Aided Open RAN

Author

Li, Peizheng, primary, Thomas, Jonathan, additional, Wang, Xiaoyang, additional, Khalil, Ahmed, additional, Ahmad, Abdelrahim, additional, Inacio, Rui, additional, Kapoor, Shipra, additional, Parekh, Arjun, additional, Doufexi, Angela, additional, Shojaeifard, Arman, additional, and Piechocki, Robert J., additional

Published
2022
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14. RLOps:Development Life-cycle of Reinforcement Learning Aided Open RAN

Author

Li, Peizheng, Thomas, Jonathan, Wang, Xiaoyang, Khalil, Ahmed, Ahmad, Abdelrahim, Inacio, Rui, Kapoor, Shipra, Parekh, Arjun, Doufexi, Angela, Shojaeifard, Arman, and Piechocki, Robert

Subjects
cs.NI, cs.LG
Abstract

Radio access network (RAN) technologies continue to witness massive growth, with Open RAN gaining the most recent momentum. In the O-RAN specifications, the RAN intelligent controller (RIC) serves as an automation host. This article introduces principles for machine learning (ML), in particular, reinforcement learning (RL) relevant for the O-RAN stack. Furthermore, we review state-of-the-art research in wireless networks and cast it onto the RAN framework and the hierarchy of the O-RAN architecture. We provide a taxonomy of the challenges faced by ML/RL models throughout the development life-cycle: from the system specification to production deployment (data acquisition, model design, testing and management, etc.). To address the challenges, we integrate a set of existing MLOps principles with unique characteristics when RL agents are considered. This paper discusses a systematic life-cycle model development, testing and validation pipeline, termed: RLOps. We discuss all fundamental parts of RLOps, which include: model specification, development and distillation, production environment serving, operations monitoring, safety/security and data engineering platform. Based on these principles, we propose the best practices for RLOps to achieve an automated and reproducible model development process.

Published
2021

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