Increasing the capability of CubeSat-based software-defined radio applications

Alvarez, Jennifer L.; Rice, Mark; Samson, J.R.; Koets, Michael A.

doi:10.1109/aero.2016.7500847

Cited by 12 publications

(5 citation statements)

References 6 publications

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“…implemented on a processor. As shown in Figure 16, the STRS software architecture uses three primary interfaces: the STRS APIs, STRS hardware abstraction layer 11 (HAL) specification, and the Portable Operating System Interface 12 (POSIX®). The STRS APIs provide the interfaces that allow applications to be instantiated and use platform services.…”

Section: Nasa Strsmentioning

confidence: 99%

“…CubeSats 13 are increasingly popular spacecraft platforms for mission-oriented experiments that can be accomplished via quick prototyping and launches [10-12]. 11 Hardware abstraction layer (HAL) is a layer of programming that allows a computer operating system to interact with a hardware device at a general or abstract level rather than at a detailed hardware level…”

Section: Sdr Applications In Cubesatsmentioning

confidence: 99%

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Communication Subsystems for Satellite Design

Nguyen¹,

Nguyen²

2021

Satellite Systems - Design, Modeling, Simulation and Analysis

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The objective of this chapter is to provide a comprehensive end-to-end overview of existing communication subsystems residing on both the satellite bus and payloads. These subsystems include command and mission data handling, telemetry and tracking, and the antenna payloads for both command, telemetry and mission data. The function of each subsystem and the relationships to the others will be described in detail. In addition, the recent application of software defined radio (SDR) to advanced satellite communication system design will be looked at with applications to satellite development, and the impacts on how SDR will affect future satellite missions are briefly discussed.

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Section: Nasa Strsmentioning

confidence: 99%

Section: Sdr Applications In Cubesatsmentioning

confidence: 99%

Communication Subsystems for Satellite Design

Nguyen¹,

Nguyen²

2021

Satellite Systems - Design, Modeling, Simulation and Analysis

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“…In such a framework, Software-Defined Radio (SDR) and Software-Defined Networking (SDN) reprensent the key technologies. Most recent contributions, published in the literature, consider the SDN-based seamless integration of heterogeneous satellite links (free-space optical and radio) [6], reconfigurable CubeSat payloads based on SDR [7], and the integration of satellite networking in the 5G ecosystem, obtained by means of SDN tools [8].…”

Section: B Softwarization Of Space Networkingmentioning

confidence: 99%

Glue Technologies for Space Systems: An Introduction to a New AESS Technical Panel

Sacchi

Schlegel

Rossi

et al. 2020

IEEE Aerosp. Electron. Syst. Mag.

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“…One of the technologies that can deliver mobile and persistent connectivity is CubeSat: nano satellites that can be deployed in large number to create potentially more resilient constellations [103]. CubeSat deployment is also faster than in larger satellites, as they can be launched into orbit in clusters or piggybacked on other loads.…”

Section: Operational Requirementsmentioning

confidence: 99%

A Review on Internet of Things for Defense and Public Safety

Fraga‐Lamas

Fernández‐Caramés

Suárez-Albela

et al. 2016

Sensors

195

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The Internet of Things (IoT) is undeniably transforming the way that organizations communicate and organize everyday businesses and industrial procedures. Its adoption has proven well suited for sectors that manage a large number of assets and coordinate complex and distributed processes. This survey analyzes the great potential for applying IoT technologies (i.e., data-driven applications or embedded automation and intelligent adaptive systems) to revolutionize modern warfare and provide benefits similar to those in industry. It identifies scenarios where Defense and Public Safety (PS) could leverage better commercial IoT capabilities to deliver greater survivability to the warfighter or first responders, while reducing costs and increasing operation efficiency and effectiveness. This article reviews the main tactical requirements and the architecture, examining gaps and shortcomings in existing IoT systems across the military field and mission-critical scenarios. The review characterizes the open challenges for a broad deployment and presents a research roadmap for enabling an affordable IoT for defense and PS.

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Increasing the capability of CubeSat-based software-defined radio applications

Cited by 12 publications

References 6 publications

Communication Subsystems for Satellite Design

Communication Subsystems for Satellite Design

Glue Technologies for Space Systems: An Introduction to a New AESS Technical Panel

A Review on Internet of Things for Defense and Public Safety

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