Relevant bibliographies by topics / Satellite terrestrial architecture

Academic literature on the topic 'Satellite terrestrial architecture'

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Published: 10 March 2023

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Journal articles on the topic "Satellite terrestrial architecture"

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Tong, Minglei, Song Li, Xiaoxiang Wang, and Peng Wei. "Inter-Satellite Cooperative Offloading Decision and Resource Allocation in Mobile Edge Computing-Enabled Satellite–Terrestrial Networks." Sensors 23, no. 2 (January 6, 2023): 668. http://dx.doi.org/10.3390/s23020668.

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Mobile edge computing (MEC)-enabled satellite–terrestrial networks (STNs) can provide task computing services for Internet of Things (IoT) devices. However, since some applications’ tasks require huge amounts of computing resources, sometimes the computing resources of a local satellite’s MEC server are insufficient, but the computing resources of neighboring satellites’ MEC servers are redundant. Therefore, we investigated inter-satellite cooperation in MEC-enabled STNs. First, we designed a system model of the MEC-enabled STN architecture, where the local satellite and the neighboring satellites assist IoT devices in computing tasks through inter-satellite cooperation. The local satellite migrates some tasks to the neighboring satellites to utilize their idle resources. Next, the task completion delay minimization problem for all IoT devices is formulated and decomposed. Then, we propose an inter-satellite cooperative joint offloading decision and resource allocation optimization scheme, which consists of a task offloading decision algorithm based on the Grey Wolf Optimizer (GWO) algorithm and a computing resource allocation algorithm based on the Lagrange multiplier method. The optimal solution is obtained by continuous iterations. Finally, simulation results demonstrate that the proposed scheme achieves relatively better performance than other baseline schemes.
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Priscoli, F. D. "UMTS architecture for integrating terrestrial and satellite systems." IEEE Multimedia 6, no. 4 (1999): 38–45. http://dx.doi.org/10.1109/93.809232.

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Tirmizi, Syed Bilal Raza, Yunfei Chen, Subhash Lakshminarayana, Wei Feng, and Aziz A. Khuwaja. "Hybrid Satellite–Terrestrial Networks toward 6G: Key Technologies and Open Issues." Sensors 22, no. 21 (November 6, 2022): 8544. http://dx.doi.org/10.3390/s22218544.

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Future wireless networks will be required to provide more wireless services at higher data rates and with global coverage. However, existing homogeneous wireless networks, such as cellular and satellite networks, may not be able to meet such requirements individually, especially in remote terrain, including seas and mountains. One possible solution is to use diversified wireless networks that can exploit the inter-connectivity between satellites, aerial base stations (BSs), and terrestrial BSs over inter-connected space, ground, and aerial networks. Hence, enabling wireless communication in one integrated network has attracted both the industry and the research fraternities. In this work, we provide a comprehensive survey of the most recent work on hybrid satellite–terrestrial networks (HSTNs), focusing on system architecture, performance analysis, design optimization, and secure communication schemes for different cooperative and cognitive HSTN network architectures. Different key technologies are compared. Based on this comparison, several open issues for future research are discussed.
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Wei, Linhui, Chen Chang, Yu Liu, and Yumei Wang. "Energy-Efficient Controller Placement in Software-Defined Satellite-Terrestrial Integrated Network." Remote Sensing 14, no. 21 (November 4, 2022): 5561. http://dx.doi.org/10.3390/rs14215561.

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The satellite-terrestrial integrated network (STIN), as an integration of the satellite network and terrestrial, has become a promising architecture to support global coverage and ubiquitous connection. The architecture of software-defined networking (SDN) is utilized to intelligently coordinate the global STIN, in which the placement schemes of SDN controllers, including the locations, number, and roles, would produce various performances. However, the uneven distribution of global users leads to the unbalanced energy consumption of satellite resources, which brings a heavy burden for satellites to maintain the control flows for network management. To provide green communication for international economic trade in the countries along the Belt and Road, in this paper, we focus on the energy-efficient controller placement (EECP) problem in the software-defined STIN. The satellite gateways are located in the countries along the Belt and Road, which accounts for a large number of traffic demands and a dense population. The controllers are deployed on the LEO satellites, where each LEO satellite is a candidate controller. The energy consumption for the control paths and the user data links is modeled and then formulated as the flow processing-oriented optimization problem. A modified simulated annealing placement (MSAP) algorithm is developed to solve the EECP problem, in which we use the greedy way to obtain the initial set of controllers, and then the final optimal controller placement result is obtained by the simulated annealing algorithm. Extensive simulations are conducted on the simulated Iridium satellite network topology and statistics data. Compared with other algorithms, the results show that MSAP reduces network energy consumption by 20% and average latency by 25%.
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Feng, Bohao, Huachun Zhou, Hongke Zhang, Guanwen Li, Haifeng Li, Shui Yu, and Han-Chieh Chao. "HetNet: A Flexible Architecture for Heterogeneous Satellite-Terrestrial Networks." IEEE Network 31, no. 6 (November 2017): 86–92. http://dx.doi.org/10.1109/mnet.2017.1600330.

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Sapaty, P. S. "Managing multiple satellite architectures by spatial grasp technology." Mathematical machines and systems 1 (2021): 3–16. http://dx.doi.org/10.34121/1028-9763-2021-1-3-16.

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The paper reviews some advanced space projects oriented on many satellites moving around the globe in low Earth orbits, and investigates how to organize their collective operation for solving important world problems, especially those related to global security and defense. It analyzes the application of the developed Spatial Grasp model and Technology (SGT), successfully tested on numerous applications, for simulation and management of multiple satellite architectures. Of particular interest is the latest Space Development Agency Next-Generation Space Architecture that uses a great number of cooperating satellites organized on different layers, which appears to be much more advanced than the known Strategic Defense Initiative project of the eighties. SGT is based on mobile recursive scenarios in a special high-level Spatial Grasp Language (SGL) which can self-navigate and self-match distributed environments while leaving throughout them powerful spatial infrastructures capable of solving any distributed problems. Providing basics of the latest SGT version, the paper describes examples of solutions in it of such problems as distributed tracing and elimination of complexly moving cruise missiles and hypersonic gliders, organization of effective custody layer which will be able to observe not only localized dangerous objects on the Earth but also any distributed terrestrial infrastructures as a whole. It also shows how to introduce a higher virtual layer for satellite constellation which may simplify formulation and solution of many problems in both terrestrial and celestial environments, including advanced command and control of complex national and international operations and campaigns from space.
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Yan, Lei, Suzhi Cao, Yongsheng Gong, Hao Han, Junyong Wei, Yi Zhao, and Shuling Yang. "SatEC: A 5G Satellite Edge Computing Framework Based on Microservice Architecture." Sensors 19, no. 4 (February 18, 2019): 831. http://dx.doi.org/10.3390/s19040831.

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As outlined in the 3Gpp Release 16, 5G satellite access is important for 5G network development in the future. A terrestrial-satellite network integrated with 5G has the characteristics of low delay, high bandwidth, and ubiquitous coverage. A few researchers have proposed integrated schemes for such a network; however, these schemes do not consider the possibility of achieving optimization of the delay characteristic by changing the computing mode of the 5G satellite network. We propose a 5G satellite edge computing framework (5GsatEC), which aims to reduce delay and expand network coverage. This framework consists of embedded hardware platforms and edge computing microservices in satellites. To increase the flexibility of the framework in complex scenarios, we unify the resource management of the central processing unit (CPU), graphics processing unit (GPU), and field-programmable gate array (FPGA); we divide the services into three types: system services, basic services, and user services. In order to verify the performance of the framework, we carried out a series of experiments. The results show that 5GsatEC has a broader coverage than the ground 5G network. The results also show that 5GsatEC has lower delay, a lower packet loss rate, and lower bandwidth consumption than the 5G satellite network.
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Guo, Xiaotao, Ying Zhang, Yu Jiang, Shenggang Wu, and Hengnian Li. "A Novel Decomposed Optical Architecture for Satellite Terrestrial Network Edge Computing." Mathematics 10, no. 14 (July 19, 2022): 2515. http://dx.doi.org/10.3390/math10142515.

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Aiming at providing a high-performance terrestrial network for edge computing in satellite networks, we experimentally demonstrate a high bandwidth and low latency decomposed optical computing architecture based on distributed Nanoseconds Optical Switches (NOS). Experimental validation of the decomposed computing network prototype employs a four-port NOS to interconnect four processor/memory cubes. The SOA-based optical gates provide an ON/OFF ratio greater than 60 dB, enabling none-error transmission at a Bit Error Rate (BER) of 1 × 10−9. An end-to-end access latency of 122.3 ns and zero packet loss are obtained in the experimental assessment. Scalability and physical performance considering signal impairments when increasing the NOS port count are also investigated. An output OSNR of up to 30.5 dB and an none-error transmission with 1.5 dB penalty is obtained when scaling the NOS port count to 64. Moreover, exploiting the experimentally measured parameters, the network performance of NOS-based decomposed computing architecture is numerically assessed under larger network scales. The results indicate that, under a 4096-cube network scale, the NOS-based decomposed computing architecture achieves 148.5 ns end-to-end latency inside the same rack and zero packet loss at a link bandwidth of 40 Gb/s.
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Xie, Renchao, Qinqin Tang, Qiuning Wang, Xu Liu, F. Richard Yu, and Tao Huang. "Satellite-Terrestrial Integrated Edge Computing Networks: Architecture, Challenges, and Open Issues." IEEE Network 34, no. 3 (May 2020): 224–31. http://dx.doi.org/10.1109/mnet.011.1900369.

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Yan, Yanjun, Huihui Xu, Ning Zhang, Guangjie Han, and Mingliu Liu. "Dynamic Divide Grouping Non-Orthogonal Multiple Access in Terrestrial-Satellite Integrated Network." Sensors 21, no. 18 (September 16, 2021): 6199. http://dx.doi.org/10.3390/s21186199.

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Non-orthogonal multiple access (NOMA) has been extensively studied to improve the performance of the Terrestrial-Satellite Integrated Network (TSIN) on account of the shortage of frequency band resources. In this paper, the terrestrial network and satellite network synergistically provide complete coverage for ground users, and based on the architecture, we first formulate a constrained optimization problem to maximize the sum rate of the TSIN under the limited spectrum resources. As the terrestrial networks and the satellite network will cause interference to each other, we first investigate the capacity performance of the terrestrial networks and the satellite networks separately, in which the optimal power control factor expression is derived. Then, by constructing the relationship model between user elevation angle, beam angle and distance, we develop a dynamic group pairing schemes to ensure the effective pairing of NOMA users. Based on the user pairing, to obtain the optimal resource allocation, a joint optimization algorithm of power allocation, beam channel and base station channel resource is proposed. Finally, simulation results are provided to evaluate the user paring scheme as well as the total system performance, in comparison with the existing works.
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Dissertations / Theses on the topic "Satellite terrestrial architecture"

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ZAMPOGNARO, FRANCESCO. "Satellite and terrestrial network integration." Doctoral thesis, Università degli Studi di Roma "Tor Vergata", 2010. http://hdl.handle.net/2108/1297.

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Il presente lavoro di testi descrive le attività di ricerca relative all'integrazione di reti terrestri e satellitari. Gli aspetti architetturali, protocollari e di sistema sono analizzati, seguiti da proposte di migliorie e nuovi approcci che sono discussi e validati per mezzo di simulazioni, test su piattaforma di emulazione basata su Linux e sistemi veri.
This Ph.D. thesis represents the outcomes of the research activities performed on the integration of satellite and terrestrial networks. After a deep analysis on architectures, protocols, scenarios and existing projects several new proposals are introduced and discussed, validated by means of simulation, emulation over a Linux based platform or using real hardware.
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Mendoza, Montoya Jesús Fabián. "Satellite integration in 5G : contribution on network architectures and traffic engineering solutions for hybrid satellite-terrestrial mobile backhauling." Doctoral thesis, Universitat Politècnica de Catalunya, 2019. http://hdl.handle.net/10803/666793.

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The recent technological advances in the satellite domain such as the use of High Throughput Satellites (HTS) with throughput rates that are magnitudes higher than with previous ones, or the use of large non- Geostationary Earth Orbit (GEO) satellites constellations, etc, are reducing the price per bit and enhancing the Quality of Service (QoS) metrics such as latency, etc., changing the way that the capacity is being brought to the market and making it more attractive for other services such as satellite broadband communications. These new capabilities coupled with the advantages offered by satellite communications such as the unique wide-scale geographical coverage, inherent broadcast/multicast capabilities and highly reliable connectivity, anticipate new opportunities for the integration of the satellite component into the 5G ecosystem. One of the most compelling scenarios is mobile backhauling, where satellite capacity can be used to complement the terrestrial backhauling infrastructure, not only in hard to reach areas, but also for more efficient traffic delivery to Radio Access Network (RAN) nodes, increased resiliency and better support for fast, temporary cell deployments and moving cells. In this context, this thesis work focuses on achieving better satellite-terrestrial backhaul network integration through the development of Traffic Engineering (TE) strategies to manage in a better way the dynamically steerable satellite provisioned capacity. To do this, this thesis work first takes the steps in the definition of an architectural framework that enables a better satellite-terrestrial mobile backhaul network integration, managing the satellite capacity as a constituent part of a Software Defined Networking (SDN) -based TE for mobile backhaul network. Under this basis, this thesis work first proposes and assesses a model for the analysis of capacity and traffic management strategies for hybrid satellite-terrestrial mobile backhauling networks that rely on SDN for fine-grained traffic steering. The performance analysis is carried out in terms of capacity gains that can be achieved when the satellite backhaul capacity is used for traffic overflow, taking into account the placement of the satellite capacity at different traffic aggregation levels and considering a spatial correlation of the traffic demand. Later, the thesis work presents the development of SDN-based TE strategies and algorithms that exploits the dynamically steerable satellite capacity provisioned for resilience purposes to better utilize the satellite capacity by maximizing the network utility under both failure and non-failure conditions in some terrestrial links, under the consideration of elastic, inelastic and unicast and multicast traffic. The performance analysis is carried out in terms of global network utility, fairness and connexion rejection rates compared to non SDN-based TE applications. Finally, sustained in the defined architectural framework designs, the thesis work presents an experimental Proof of Concept (PoC) and validation of a satellite-terrestrial backhaul links integration solution that builts upon SDN technologies for the realization of End-to-End (E2E) TE applications in mobile backhauling networks with a satellite component, assessing the feasibility of the proposed SDN-based integration solution under a practical laboratory setting that combines the use of commercial, experimentation-oriented and emulation equipment and software.
Los recientes avances tecnológicos en el dominio de los satélites, como el uso de satélites de alto rendimiento (HTS) con tasas de rendimiento que son magnitudes más altas que los anteriores, o el uso de grandes constelaciones de satélites de órbita no geoestacionaria (GEO), etc. están reduciendo el precio por bit y mejorando las métricas de Calidad de Servicio (QoS) como la latencia, etc., cambiando la forma en que la capacidad se está llevando al mercado, y haciéndola más atractiva para otros servicios como las comunicaciones de banda ancha por satélite. Estas nuevas capacidades, junto con las ventajas ofrecidas por las comunicaciones por satélite, como la cobertura geográfica a gran escala, las inherentes capacidades de difusión / multidifusión y la conectividad altamente confiable, anticipan nuevas oportunidades para la integración de la componente satelital al ecosistema 5G. Uno de los escenarios más atractivos es el backhauling móvil, donde la capacidad del satélite se puede usar para complementar la infraestructura de backhauling terrestre, no solo en áreas de difícil acceso, sino también para la entrega de tráfico de manera más eficiente a los nodos de la Red de Acceso (RAN), una mayor resiliencia y mejor soporte para implementaciones rápidas y temporales de células, así como células en movimiento. En este contexto, este trabajo de tesis se centra en lograr una mejor integración de la red híbrida de backhaul satélital-terrestre, a través del desarrollo de estrategias de ingeniería de tráfico (TE) para gestionar de una mejor manera la capacidad dinámicamente orientable del satélite. Para hacer esto, este trabajo de tesis primero toma los pasos en la definición de un marco de arquitectura que permite una mejor integración de una red híbrida satelital-terrestre de backhaul móvil, gestionando la capacidad del satélite como parte constitutiva de un TE basado en Software Defined Networking (SDN). Bajo esta base, este trabajo de tesis primero propone y evalúa un modelo para el análisis de la capacidad y las estrategias de gestión del tráfico para redes híbridas satelital-terrestre de backhaul móvil basadas en SDN para la dirección de tráfico. El análisis de rendimiento se lleva a cabo en términos de aumento de capacidad que se puede lograr cuando la capacidad de la red de backhaul por satélite se utiliza para el desborde de tráfico, teniendo en cuenta la ubicación de la capacidad del satélite en diferentes niveles de agregación de tráfico y considerando una correlación espacial de la demanda de tráfico. Posteriormente, el trabajo de tesis presenta el desarrollo de estrategias y algoritmos de TE basados en SDN que explotan la capacidad dinámicamente orientable del satelite, provista con fines de resiliencia para utilizar de mejor manera la capacidad satelital al maximizar la utilidad de red en condiciones de falla y no falla en algunos enlaces terrestres, y bajo la consideración de tráfico elástico, inelástico y de unidifusión y multidifusión. El análisis de rendimiento se lleva a cabo en términos de tasas de rechazo, de utilidad, y equidad en comparación con las aplicaciones de TE no basadas en SDN. Finalmente, basado en la definición del diseño de marco de arquitectura, el trabajo de tesis presenta una Prueba de concepto (PoC) experimental y la validación de una solución de integración de enlaces de backhaul satelital-terrestre que se basa en las tecnologías SDN para la realización de aplicaciones de TE de extremo a extremo (E2E) en redes de backhaul móviles, evaluando la viabilidad de la solución propuesta de integración basada en SDN en un entorno práctico de laboratorio que combina el uso de equipos y software comerciales, orientados a la experimentación y emulación.
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JAYOUSI, SARA. "Cooperative strategies and IP QoS management in satellite terrestrial network architectures." Doctoral thesis, 2012. http://hdl.handle.net/2158/606747.

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Book chapters on the topic "Satellite terrestrial architecture"

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Berthou, Pascal, Cédric Baudoin, Thierry Gayraud, and Matthieu Gineste. "Integration of Satellites into IMS QoS Architecture." In Satellite and Terrestrial Hybrid Networks, 97–134. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2015. http://dx.doi.org/10.1002/9781118625347.ch4.

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Ning, Xin, Chengzu Huang, Chenlu Wang, and Yuhuai Peng. "A Cloud Service Architecture for SDN-Based Space-Terrestrial Integrated Network." In Wireless and Satellite Systems, 111–17. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-93398-2_11.

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Majumdar, Arun K. "Optical Laser Links in Space-Based Systems for Global Communications Network Architecture: Space/Aerial, Terrestrial, and Underwater Platforms." In Laser Communication with Constellation Satellites, UAVs, HAPs and Balloons, 97–128. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-03972-0_4.

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Kuruba, Padmaja, and A. V. Sutagundar. "Emerging Trends of Space-Based Wireless Sensor Network and Its Applications." In Research Anthology on Reliability and Safety in Aviation Systems, Spacecraft, and Air Transport, 1542–63. IGI Global, 2021. http://dx.doi.org/10.4018/978-1-7998-5357-2.ch065.

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There is a great demand in space and earth observations applications. Traditional satellite missions have complex design architecture involving high cost in design, operation, launch and maintenance. Thus single large satellite is replaced by multiple, small satellites with distributed network, collaboratively performing the same functionality of large satellite. This has been motivated researchers to explore the application of terrestrial Wireless Sensor Network (WSN) to space. The main objective of using space based WSN is to have full power of remote sensing capabilities at all the relevant time horizons and geographical scales with high performance and low cost. It also strives for an optimal solution that gratifies the standards, sizes, air interfaces, network architecture, access schemes, fault tolerance, operating system, hardware components of on-board diagnostics etc. This chapter discusses the characteristics and challenges of Space-Based Wireless Sensor Network (SWSN).
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Kuruba, Padmaja, and A. V. Sutagundar. "Emerging Trends of Space-Based Wireless Sensor Network and Its Applications." In Advances in Wireless Technologies and Telecommunication, 35–57. IGI Global, 2017. http://dx.doi.org/10.4018/978-1-5225-0501-3.ch002.

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There is a great demand in space and earth observations applications. Traditional satellite missions have complex design architecture involving high cost in design, operation, launch and maintenance. Thus single large satellite is replaced by multiple, small satellites with distributed network, collaboratively performing the same functionality of large satellite. This has been motivated researchers to explore the application of terrestrial Wireless Sensor Network (WSN) to space. The main objective of using space based WSN is to have full power of remote sensing capabilities at all the relevant time horizons and geographical scales with high performance and low cost. It also strives for an optimal solution that gratifies the standards, sizes, air interfaces, network architecture, access schemes, fault tolerance, operating system, hardware components of on-board diagnostics etc. This chapter discusses the characteristics and challenges of Space-Based Wireless Sensor Network (SWSN).
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Graham, Stephen. "Enigmatic Presence." In Spaces of Security, 206–30. NYU Press, 2019. http://dx.doi.org/10.18574/nyu/9781479863013.003.0010.

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The Earth’s fast-expanding array of active satellites are central to the organization, experience – and destruction – of contemporary life on the earth’s surface. Yet it remains difficult to visualize and understand their enigmatic presence. Mysterious and cordoned-off ground stations dot the earth’s terrain, their futuristic radomes and relay facilities directed upwards to unknowable satellites above. Small antennae lift upwards from a myriad of apartment blocks to silently receive invisible broadcasts from transnational television stations. Crowds might even occasionally witness the spectacle of a satellite launch atop a rocket. In such a context, this chapter introduces the ways in which the regimes of power organized through satellites and other space systems are interwoven with production of violence, inequality and injustice on the terrestrial surface. Necessarily, the chapter also attends to the importance of how space is imagined and represented as a national frontier; a birthright of states; a sphere of heroic exploration; a fictional realm; or as a vulnerable domain above through which malign others might stealthily threaten societies below at any moment. The essay addresses the contested geopolitics and ‘astrogeopolitics’ of satellites. It explores satellite regimes as means for national security states to intensely scrutinise the Earth’s surface. It analyses the increasingly weaponised means of directly launching lethal violence. Moreover, it addresses satellites systems as domains contested by all sorts of countergeographic artistic, social and political movements who appropriate the increasingly civilianized architectures of vertical military scrutiny to both contest their hegemony and to add power to ground level political and social struggles.
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Conference papers on the topic "Satellite terrestrial architecture"

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Papapetrou, Evangelos, and Niovi Pavlidou. "A satellite-based architecture for internet P2P applications." In QShine 2007 Workshop: Satellite/Terrestrial Interworking. New York, New York, USA: ACM Press, 2007. http://dx.doi.org/10.1145/1577776.1577781.

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Tsoulkas, Vasilis N., Athanasios A. Pantelous, Leonidas Dritsas, and Christos Papachristos. "Hybrid Satellite-Terrestrial Architecture for Control Systems Education." In 2011 UkSim 13th International Conference on Computer Modelling and Simulation (UKSim). IEEE, 2011. http://dx.doi.org/10.1109/uksim.2011.41.

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Zhou, Zhihao, Jinxin Ma, Guangnian Wan, Li Su, Haitao Du, and Baojiang Cui. "Research on 6G Satellite-Terrestrial Integrated Network Architecture." In ICCSIE2022: 7th International Conference on Cyber Security and Information Engineering. New York, NY, USA: ACM, 2022. http://dx.doi.org/10.1145/3558819.3565467.

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Zhao, W. "An integrated system architecture for GSM and satellite PCN." In IEE Colloquium on Integration of Satellite and Terrestrial PCS. IEE, 1997. http://dx.doi.org/10.1049/ic:19970844.

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Kocian, A., M. De Sanctis, T. Rossi, M. Ruggieri, E. Del Re, S. Jayousi, L. S. Ronga, and R. Suffritti. "Hybrid satellite/terrestrial telemedicine services: Network requirements and architecture." In 2011 IEEE Aerospace Conference. IEEE, 2011. http://dx.doi.org/10.1109/aero.2011.5747335.

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Iapichino, Giuliana, Christian Bonnet, Oscar del Rio Herrero, Cedric Baudoin, and Isabelle Buret. "Advanced Hybrid Satellite and Terrestrial System Architecture for Emergency Mobile Communications." In 26th International Communications Satellite Systems Conference (ICSSC). Reston, Virigina: American Institute of Aeronautics and Astronautics, 2008. http://dx.doi.org/10.2514/6.2008-5505.

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"Traffic Management in an Integrated Satellite-HAP-Terrestrial System Architecture." In 55th International Astronautical Congress of the International Astronautical Federation, the International Academy of Astronautics, and the International Institute of Space Law. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2004. http://dx.doi.org/10.2514/6.iac-04-m.2.08.

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Han, Zhenzhen, Chuan Xu, Kun Liu, Le Yu, Guofeng Zhao, and Shui Yu. "A Novel Mobile Core Network Architecture for Satellite-Terrestrial Integrated Network." In GLOBECOM 2021 - 2021 IEEE Global Communications Conference. IEEE, 2021. http://dx.doi.org/10.1109/globecom46510.2021.9685133.

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Giubilei, Riccardo, Francesco Mini, and Valter Podda. "An Integrated Satellite/Terrestrial System Architecture for UMTS and Broadcast/Multicast Services." In 20th AIAA International Communication Satellite Systems Conference and Exhibit. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2002. http://dx.doi.org/10.2514/6.2002-1986.

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Alberti, Antonio Marcos, Karine Costa, and Tibério Tavares Tavares Rezende. "Virtualização em Redes Terrestre-Satélite 5G." In I Workshop de Teoria, Tecnologias e Aplicações de Slicing para Infraestruturas Softwarizadas. Sociedade Brasileira de Computação - SBC, 2019. http://dx.doi.org/10.5753/wslice.2019.7723.

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In order to propose a hybrid terrestrial-satellite architecture for the 5G infrastructure in Brazil, it is sought to discover and understand the resources and tools used in the simulation or emulation of these network architectures for performance analysis purposes when evaluating various technological interoperability scenarios. Based on the main projects of the European Commission H2020 and standardization organizations of the 5G network, such as 3GPP, ETSI, ITU, among others, this article investigates how the standardization and implementation of 5G terrestrial network management and virtualization technologies are being applied. It highlights the use cases and the tools used in their investigations.
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