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102 results on '"Schellmann, Malte"'

1. A Distributed Neural Linear Thompson Sampling Framework to Achieve URLLC in Industrial IoT

Author

Pase, Francesco, Giordani, Marco, Cavallero, Sara, Schellmann, Malte, Eichinger, Josef, Verdone, Roberto, and Zorzi, Michele

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

Industrial Internet of Things (IIoT) networks will provide Ultra-Reliable Low-Latency Communication (URLLC) to support critical processes underlying the production chains. However, standard protocols for allocating wireless resources may not optimize the latency-reliability trade-off, especially for uplink communication. For example, centralized grant-based scheduling can ensure almost zero collisions, but introduces delays in the way resources are requested by the User Equipments (UEs) and granted by the gNB. In turn, distributed scheduling (e.g., based on random access), in which UEs autonomously choose the resources for transmission, may lead to potentially many collisions especially when the traffic increases. In this work we propose DIStributed combinatorial NEural linear Thompson Sampling (DISNETS), a novel scheduling framework that combines the best of the two worlds. By leveraging a feedback signal from the gNB and reinforcement learning, the UEs are trained to autonomously optimize their uplink transmissions by selecting the available resources to minimize the number of collisions, without additional message exchange to/from the gNB. DISNETS is a distributed, multi-agent adaptation of the Neural Linear Thompson Sampling (NLTS) algorithm, which has been further extended to admit multiple parallel actions. We demonstrate the superior performance of DISNETS in addressing URLLC in IIoT scenarios compared to other baselines.

Published
2023

2. Codebook Based Two-Time Scale Resource Allocation Design for IRS-Assisted eMBB-URLLC Systems

Author

Ghanem, Walid R., Jamali, Vahid, Schellmann, Malte, Cao, Hanwen, Eichinger, Joseph, and Schober, Robert

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

This paper investigates the resource allocation algorithm design for wireless systems assisted by large intelligent reflecting surfaces (IRSs) with coexisting enhanced mobile broadband (eMBB) and ultra reliable low-latency communication (URLLC) users. We consider a two-time scale resource allocation scheme, whereby the base station's precoders are optimized in each mini-slot to adapt to newly arriving URLLC traffic, whereas the IRS phase shifts are reconfigured only in each time slot to avoid excessive base station-IRS signaling. To facilitate efficient resource allocation design for large IRSs, we employ a codebook-based optimization framework, where the IRS is divided into several tiles and the phase-shift elements of each tile are selected from a pre-defined codebook. The resource allocation algorithm design is formulated as an optimization problem for the maximization of the average sum data rate of the eMBB users over a time slot while guaranteeing the quality-of-service (QoS) of each URLLC user in each mini-slot. An iterative algorithm based on alternating optimization (AO) is proposed to find a high-quality suboptimal solution. As a case study, the proposed algorithm is applied in an industrial indoor environment modelled via the Quadriga channel simulator. Our simulation results show that the proposed algorithm design enables the coexistence of eMBB and URLLC users and yields large performance gains compared to three baseline schemes. Furthermore, our simulation results reveal that the proposed two-time scale resource allocation design incurs only a small performance loss compared to the case when the IRSs are optimized in each mini-slot., Comment: 6 pages, 3 figures, 1 Table, and submitted for an IEEE conference publication

Published
2022

3. Optimization-based Phase-shift Codebook Design for Large IRSs

Author

Ghanem, Walid R., Jamali, Vahid, Schellmann, Malte, Cao, Hanwen, Eichinger, Joseph, and Schober, Robert

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

In this paper, we focus on large intelligent reflecting surfaces (IRSs) and propose a new codebook construction method to obtain a set of pre-designed phase-shift configurations for the IRS unit cells. Since the complexity of online optimization and the overhead for channel estimation scale with the size of the phase-shift codebook, the design of small codebooks is of high importance. We consider both continuous and discrete phase-shift designs and formulate the codebook construction as optimization problems. To solve the optimization problems, we propose an optimal algorithm for the discrete phase-shift design and a low-complexity sub-optimal solution for the continuous design. Simulation results show that the proposed algorithms facilitate the construction of codebooks of different sizes and with different beamwidths. Moreover, the performance of the discrete phaseshift design with 2-bit quantization is shown to approach that of the continuous phase-shift design. Finally, our simulation results show that the proposed designs enable large transmit power savings compared to the existing linear and quadratic codebook designs [1], [2]., Comment: 13 pages, 4 figures

Published
2022

4. Towards Massive Connectivity Support for Scalable mMTC Communications in 5G networks

Author

Bockelmann, Carsten, Pratas, Nuno K., Wunder, Gerhard, Saur, Stephan, Navarro, Monica, Gregoratti, David, Vivier, Guillaume, de Carvalho, Elisabeth, Ji, Yalei, Stefanovic, Cedomir, Popovski, Petar, Wang, Qi, Schellmann, Malte, Kosmatos, Evangelos, Demestichas, Panagiotis, Raceala-Motoc, Miruna, Jung, Peter, Stanczak, Slawomir, and Dekorsy, Armin

Subjects
Computer Science - Information Theory
Abstract

The fifth generation of cellular communication systems is foreseen to enable a multitude of new applications and use cases with very different requirements. A new 5G multiservice air interface needs to enhance broadband performance as well as provide new levels of reliability, latency and supported number of users. In this paper we focus on the massive Machine Type Communications (mMTC) service within a multi-service air interface. Specifically, we present an overview of different physical and medium access techniques to address the problem of a massive number of access attempts in mMTC and discuss the protocol performance of these solutions in a common evaluation framework.

Published
2018

5. Pulse Shaped OFDM for 5G Systems

Author

Zhao, Zhao, Schellmann, Malte, Gong, Xitao, Wang, Qi, Böhnke, Ronald, and Guo, Yan

Subjects
Computer Science - Information Theory
Abstract

OFDM-based waveforms with filtering or windowing functionalities are considered key enablers for a flexible air-interface design for multi-service support in future 5G systems. One candidate from this category of waveforms is pulse shaped OFDM, which follows the idea of subcarrier filtering and aims at fully maintaining the advantages of standard OFDM systems while addressing their drawbacks. In this paper, we elaborate on several pulse shaping design methods, and show how pulse shapes can be exploited as an additional degree of freedom to provide better frequency localization and more efficient spectrum utilization under a pre-defined spectrum mask. The performance analysis and evaluation results show that, for a practical mobile communication systems, the application of pulse shaping is a simple and effective means to achieve a lower out-of-band leakage for OFDM systems at virtually no costs. In fact, the complexity increase amounts to 1-2% compared to CP-OFDM only. In addition, the system's robustness against both time and frequency distortions is shown to be substantially improved by a proper pulse shape design. By allowing for the flexible configuration of physical layer parameters per sub-band according to the diverse requirements of future 5G services, pulse shaped OFDM systems can efficiently facilitate asynchronous transmissions and fragmented spectrum access, rendering it beneficial for various mobile-broadband and Internet-of-Things applications., Comment: Minor revision of abstract, introduction, section II/VI, Appendix A, and conclusion

Published
2016

8. Antenna, PHY and MAC Design

Author

Schaich, Frank, primary, Douillard, Catherine, additional, Nour, Charbel Abdel, additional, Schellmann, Malte, additional, Svensson, Tommy, additional, Lin, Hao, additional, Miao, Honglei, additional, Wang, Hua, additional, Luo, Jian, additional, Tesanovic, Milos, additional, Pratas, Nuno, additional, Roger, Sandra, additional, and Wild, Thorsten, additional

Published
2018
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15. Reliability oriented OTFS-based LEO satellites joint transmission scheme

Author

Universitat Politècnica de Catalunya. Departament de Teoria del Senyal i Comunicacions, Caus López, Màrius, Shaat, Musbah, Pérez Neira, Ana Isabel, Schellmann, Malte, Ca, Hanwen, Universitat Politècnica de Catalunya. Departament de Teoria del Senyal i Comunicacions, Caus López, Màrius, Shaat, Musbah, Pérez Neira, Ana Isabel, Schellmann, Malte, and Ca, Hanwen

Abstract

This paper investigates a dual satellite transmission scheme with coherent reception. The receiver has a single synchronization circuit and is locked to only one of the satellites. Beam-centric pre-compensation techniques are considered in the paper. The cooperation area in which coherent reception is feasible is characterized analytically. The application of precoding to the orthogonal time and frequency space (OTFS) waveform is considered to counteract the residual offsets, which result from the displacement of the receiver from the selected reference point. Numerical evaluations show that the dual satellite scheme improves the system spectral efficiency as well the link reliability in comparison with the single satellite transmission scheme., This paper is part of the R+D+i project (PID2020-115323RB-C31) funded by MCIN/AEI/ 10.13039/501100011033., Peer Reviewed, Postprint (author's final draft)

Published
2022

18. V2X Radio Interface

Author

Schellmann, Malte, Luo, Jian, Ström, Erik, Svensson, Tommy, Fodor, Gabor, Do, Hieu, Nagalapur, Keerthi Kumar, Li, Zexian, Cao, Hanwen, Manolakis, Konstantinos, Schellmann, Malte, Luo, Jian, Ström, Erik, Svensson, Tommy, Fodor, Gabor, Do, Hieu, Nagalapur, Keerthi Kumar, Li, Zexian, Cao, Hanwen, and Manolakis, Konstantinos

Abstract

This chapter provides insights into key aspects of the radio interface design for vehicle-to-everything (V2X) communications for connected automated driving and connected road user services. A key technology component in the 5G NR system is the application of beamforming techniques with narrow beams in the mm-wave spectrum to overcome the dominant path-loss effect. The chapter presents different beamforming schemes. It focuses on extensions of the air interface in the PHY and MAC layer to address the challenges for V2V communication among a large number of distributed vehicles in highly mobile environments. Short-range communication established by the V2V sidelink enables the facilitation of new communication concepts for V2X: neighboring user equipments in a close vicinity can cooperate in uplink and downlink transmissions with a base station to make use of additional link diversity, which can be beneficially exploited to improve overall reliability at a reasonable system cost., Part of ISBN 9781119692676 9781119692645QC 20230724

Published
2021
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20. Adapt and Aggregate: Adaptive OFDM Numerology and Carrier Aggregation for High Data Rate Terahertz Communications

Author

Samara, Lutfi, Zugno, Tommaso, Boban, Mate, Schellmann, Malte, and Kurner, Thomas

Abstract

We propose a communication framework suitable for data rate maximization in the Terahertz (THz) bands using adaptive Orthogonal Frequency Division Multiplexing (OFDM) numerology and carrier aggregation. OFDM is a widely adopted waveform due to the simplicity of its implementation and its effectiveness in combating frequency selectivity when the numerology is carefully chosen. However, it suffers from a multitude of limitations, including phase noise due to local oscillator inaccuracies, high peak-to-average power ratio, and is particularly sensitive to time-frequency synchronization errors, which can considerably impact its performance. This is especially relevant at THz frequencies where larger-than-usual bandwidth is available, and the choice of the numerology should be carefully made given the intrinsic transceiver constraints. Moreover, the abundance of frequency resources in the THz band imposes new design challenges that should be addressed, especially since the bandwidth usability at these frequencies depends on the communication distance. Hence, we propose a dynamic OFDM numerology adaptation mechanism, where the bandwidth of a Component Carrier (CC) covered by a single OFDM waveform is changed. For each CC, the Component Carrier Data Rate (CCDR) is evaluated while considering the effect of both hardware impairments and the wireless channel statistics. We further propose the adoption of a dynamic distance-aware CC allocation such that the available frequency resources are fully utilized, and maximize an Aggregated Data Rate (ADR) through the aggregation of several CCs. Simulation results show that the proposed approach yields the highest ADR out of all possible setups.

Published
2023
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21. V2XRadio Interface

Author

Schellmann, Malte, primary, Luo, Jian, additional, Ström, Erik, additional, Svensson, Tommy, additional, Fodor, Gabor, additional, Do, Hieu, additional, Nagalapur, Keerthi Kumar, additional, Li, Zexian, additional, Cao, Hanwen, additional, and Manolakis, Konstantinos, additional

Published
2021
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24. Antenna, PHY and MAC Design

Author

Schaich, Frank, primary, Douillard, Catherine, additional, Abdel Nour, Charbel, additional, Schellmann, Malte, additional, Svensson, Tommy, additional, Lin, Hao, additional, Miao, Honglei, additional, Wang, Hua, additional, Luo, Jian, additional, Tesanovic, Milos, additional, Pratas, Nuno, additional, Roger, Sandra, additional, and Wild, Thorsten, additional

Published
2019
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28. Towards Massive Connectivity Support for Scalable mMTC Communications in 5G Networks

Author

Bockelmann, Carsten, primary, Pratas, Nuno K., additional, Wunder, Gerhard, additional, Saur, Stephan, additional, Navarro, Monica, additional, Gregoratti, David, additional, Vivier, Guillaume, additional, De Carvalho, Elisabeth, additional, Ji, Yalei, additional, Stefanovic, Cedomir, additional, Popovski, Petar, additional, Wang, Qi, additional, Schellmann, Malte, additional, Kosmatos, Evangelos, additional, Demestichas, Panagiotis, additional, Raceala-Motoc, Miruna, additional, Jung, Peter, additional, Stanczak, Slawomir, additional, and Dekorsy, Armin, additional

Published
2018
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29. FANTASTIC-5G: Flexible Air Interface for Scalable Service Delivery within Wireless Communication Networks of the 5th Generation

Author

Schaich, Frank, Sayrac, Berna, Elayoubi, Salaheddine, Belikaidis, Ioannis-Prodromos, Caretti, Marco, Georgakopoulos, Andreas, Gong, Xitao, Kosmatos, Evangelos, Lin, Hao, Mouhouche, Belkacem, Pedersen Klaus, Pratas, Nuno, Schellmann, Malte, Schubert, Martin, Shaat, Musbah, and Wunder, Gerhard

Abstract

5th generation mobile networks will have to cope with a high degree of heterogeneity in terms of: services, mobility, number of devices, etc. Thus diverse and often contradicting key performance indicators need to be supported, but having multiple radio access technologies for multi-service support below 6GHz will be too costly. FANTASTIC-5G will develop a new multi-service Air Interface (AI) through a modular design. To allow the system to adapt to the anticipated heterogeneity, some properties need to be pursued, like: simplicity, flexibility, scalability, versatility, efficiency and future-proofness. Based on these properties a selected set of use cases and link and network design will be presented. The paper will also comprise validation and system level simulations through some indicative results; and will conclude with the overall impact to 5G standardization.

Published
2016
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30. D4.1 Draft air interface harmonization and user plane design

Author

Aydin, Osman, Gebert, Jens, Belschner, Jakob, Bazzi, Jamal, Weitkemper, Petra, Kilinc, Caner, Silva, Icaro Leonardo Da, Zaidi, Ali, Schellmann, Malte, Filippou, Miltiadis, Salem, Ahmed Soud, Mezzavilla, Marco, Venkatkumar Venkatasubramanian, Marsch, Patrick, Milos Tesanovic, Yinan Qi, Nandish Kuruvatti, Calabuig, Daniel, and Monserrat, Jose F.

Subjects
TEORIA DE LA SEÑAL Y COMUNICACIONES, 5G
Abstract

The METIS-II project envisions the design of a new air interface in order to fulfil all the performance requirements of the envisioned 5G use cases including some extreme low latency use cases and ultra-reliable transmission, xMBB requiring additional capacity that is only available in very high frequencies, as well as mMTC with extremely densely distributed sensors and very long battery life requirements. Designing an adaptable and flexible 5G Air Interface (AI), which will tackle these use cases while offering native multi-service support, is one of the key tasks of METIS-II WP4. This deliverable will highlight the challenges of designing an AI required to operate in a wide range of spectrum bands and cell sizes, capable of addressing the diverse services with often diverging requirements, and propose a design and suitability assessment framework for 5G AI candidates.

Published
2016

31. FANTASTIC-5G: Novel, flexible air interface for enabling efficient multi-service coexistence for 5G below 6 GHz

Author

Schaich, Frank, Sayrac, Berna, Caretti, Marco, Demestichas, Panagiotis, Georgakopoulos, Andreas, Gong, Xitao, Lin, Hao, Mouhouche, Belkacem, Pedersen, Klaus, Pratas, Nuno, Schellmann, Malte, Schubert, Martin, Shaat, Musbah, and Wunder, Gerhard

Subjects
advanced receivers, RRM, MIMO, broad-/multicast, air interface, MAC, waveforms, NOMA, massive access, D2D, frame design, PHY, 5G
Abstract

The advent of a new generation of wireless cellular communication networks (5G) is currently being discussed both in research and standardization, while 4G is continuously evolving. Within the overall 5GPPP framework, FANTASTIC-5G is the project dealing with the design of the multi-service air interface for below 6 GHz. Ultimate target of the project is to allow the system to adapt to any means arising from diverse service requirements and device capabilities, various deployment and environment settings and mobility levels. Additionally, the ambition of the project is to have an impact to standardization. Therefore, we focus on technologies being relevant for standardization instead of proprietary elements. This paper provides some insights on the project itself and on the concepts being worked on.

Published
2016
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33. D4.1 Draft air interface harmonization and user plane design

Author

Schellmann, Malte, Venkatasubramanian, Venkatkumar, Universitat Politècnica de València. Instituto Universitario de Telecomunicación y Aplicaciones Multimedia - Institut Universitari de Telecomunicacions i Aplicacions Multimèdia, European Commission, Aydin, Osman, Gebert, Jens, Belschner, Jakob, Bazzi, Jamal, Weitkemper, Petra, Kilinc, Caner, Leonardo Da Silva, Icaro, Zaidi, Ali, Filippou, Miltiadis, Salem, Ahmed Soud, Mezzavilla, Marco, Monserrat del Río, José Francisco, Calabuig Soler, Daniel, Schellmann, Malte, Venkatasubramanian, Venkatkumar, Universitat Politècnica de València. Instituto Universitario de Telecomunicación y Aplicaciones Multimedia - Institut Universitari de Telecomunicacions i Aplicacions Multimèdia, European Commission, Aydin, Osman, Gebert, Jens, Belschner, Jakob, Bazzi, Jamal, Weitkemper, Petra, Kilinc, Caner, Leonardo Da Silva, Icaro, Zaidi, Ali, Filippou, Miltiadis, Salem, Ahmed Soud, Mezzavilla, Marco, Monserrat del Río, José Francisco, and Calabuig Soler, Daniel

Abstract

The METIS-II project envisions the design of a new air interface in order to fulfil all the performance requirements of the envisioned 5G use cases including some extreme low latency use cases and ultra-reliable transmission, xMBB requiring additional capacity that is only available in very high frequencies, as well as mMTC with extremely densely distributed sensors and very long battery life requirements. Designing an adaptable and flexible 5G Air Interface (AI), which will tackle these use cases while offering native multi-service support, is one of the key tasks of METIS-II WP4. This deliverable will highlight the challenges of designing an AI required to operate in a wide range of spectrum bands and cell sizes, capable of addressing the diverse services with often diverging requirements, and propose a design and suitability assessment framework for 5G AI candidates.

Published
2016

34. Analysis of frequency domain frame detection and synchronization in OQAM-OFDM systems Advances in Flexible Multicarrier Waveforms for Future Wireless Communications

Author

Thein, Christoph, Schellmann, Malte, and Peissig, Jürgen

Subjects
Dewey Decimal Classification::000 | Allgemeines, Wissenschaft::000 | Informatik, Wissen, Systeme::000 | Informatik, Informationswissenschaft, allgemeine Werke, Orthogonal frequency division multiplexing, Offset-QAM OFDM, Filter banks, Wireless communications, Time domain analysis, Detection and estimation, Frequency-domain processing, Filter bank multicarrier, Time-domain synchronization, Synchronization, Frequency domain approaches, Dewey Decimal Classification::500 | Naturwissenschaften::510 | Mathematik, Carrier frequency offsets, Frequency domain processing, Mathematik, ddc:000, Frequency domain analysis, Informatik, Informationswissenschaft, allgemeine Werke, Wireless telecommunication systems, ddc:510, Frequency domain algorithm, Preamble-based synchronization
Abstract

For future communication systems, filter bank multicarrier schemes offer the flexibility to increase spectrum utilization in heterogeneous wireless environments by good separation of signals in the frequency domain. To fully exploit this property for frame detection and synchronization, the advantage of the filter bank should be taken at the receiver side. In this work, the concept of frequency domain processing for frame detection and synchronization is analyzed and a suitable preamble design as well as corresponding estimation algorithms is discussed. The theoretical performance of the detection and estimation schemes is derived and compared with simulation-based assessments. The results show that, even though the frequency domain algorithms are sensitive to carrier frequency offsets, satisfactory frame detection and synchronization can be achieved in the frequency domain. In comparison to time domain synchronization methods, the computational complexity increases; however, enhanced robustness in shared spectrum access scenarios is gained in case the described frequency domain approach is utilized.

Published
2014

37. FANTASTIC‐5G: flexible air interface for scalable service delivery within wireless communication networks of the 5th generation

Author

Schaich, Frank, primary, Sayrac, Berna, additional, Elayoubi, Salaheddine, additional, Belikaidis, Ioannis‐Prodromos, additional, Caretti, Marco, additional, Georgakopoulos, Andreas, additional, Gong, Xitao, additional, Kosmatos, Evangelos, additional, Lin, Hao, additional, Demestichas, Panagiotis, additional, Mouhouche, Belkacem, additional, Pedersen, Klaus, additional, Pratas, Nuno, additional, Schellmann, Malte, additional, Schubert, Martin, additional, Shaat, Musbah, additional, and Wunder, Gerhard, additional

Published
2016
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45. Scenarios for 5G mobile and wireless communications: the vision of the METIS project

Author

Osseiran, Afif, primary, Boccardi, Federico, additional, Braun, Volker, additional, Kusume, Katsutoshi, additional, Marsch, Patrick, additional, Maternia, Michal, additional, Queseth, Olav, additional, Schellmann, Malte, additional, Schotten, Hans, additional, Taoka, Hidekazu, additional, Tullberg, Hugo, additional, Uusitalo, Mikko A., additional, Timus, Bogdan, additional, and Fallgren, Mikael, additional

Published
2014
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47. EU FP7 INFSO-ICT-317669 METIS, D1.1 Scenarios, requirements and KPIs for 5G mobile and wireless system

Author

Popovsk, Petar, Brau, Volker, Mayer, Hans-Peter, Fertl, Peter, Ren, Zhe, Gonzales-Serrano, David, Ström, Erik G., Svensson, Tommy, Taoka, Hidekazu, Agyapong, Patrick, Benjebbour, Anass, Zimmermann, Gerd, Meinilä, Juha, Ylitalo, Juha, Jämsä, Tommi, Kyösti, Pekka, Dimou, Konstantinos, Fallgren, Mikael, Selén, Yngve, Timus, Bogdan, Tullberg, Hugo, Schellmann, Malte, Wu, Yuxiang, Schubert, Martin, Kang, Du Ho, Markendahl, Jan I, Beckman, Claes, Uusitalo, Mikko, Yilmaz, Osman, Wijting, Carl, Li, Zexian, Marsch, Patrick, Pawlak, Krystian, Vihriala, Jaakko, Gouraud, Alexandre, Jeux, Sébastien, Boldi, Mauro, Dell'aera, Gian Michele, Melis, Bruno, Schotten, Hans, Spapis, Panagiotis, Kaloxylos, Alex, Chatzikokolakis, Konstantinos, Popovsk, Petar, Brau, Volker, Mayer, Hans-Peter, Fertl, Peter, Ren, Zhe, Gonzales-Serrano, David, Ström, Erik G., Svensson, Tommy, Taoka, Hidekazu, Agyapong, Patrick, Benjebbour, Anass, Zimmermann, Gerd, Meinilä, Juha, Ylitalo, Juha, Jämsä, Tommi, Kyösti, Pekka, Dimou, Konstantinos, Fallgren, Mikael, Selén, Yngve, Timus, Bogdan, Tullberg, Hugo, Schellmann, Malte, Wu, Yuxiang, Schubert, Martin, Kang, Du Ho, Markendahl, Jan I, Beckman, Claes, Uusitalo, Mikko, Yilmaz, Osman, Wijting, Carl, Li, Zexian, Marsch, Patrick, Pawlak, Krystian, Vihriala, Jaakko, Gouraud, Alexandre, Jeux, Sébastien, Boldi, Mauro, Dell'aera, Gian Michele, Melis, Bruno, Schotten, Hans, Spapis, Panagiotis, Kaloxylos, Alex, and Chatzikokolakis, Konstantinos

Abstract

This deliverable introduces generic scenarios based on fundamental challenges, and the specific problem description of test cases that will be relevant for beyond future radio access. Specific characteristics of each scenario and each test case include the key assumptions regarding requirements and key performance indicators. In order not to constrain the potential solutions, the requirements are specified from an end-user perspective. The deliverable will not only serve as the guideline for the technical work and system concept design in METIS, but also can serve in external research communities to help to harmonize the work towards the future radio access system including the new generation system of 5G, QC 20180219

Published
2013

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