Aerospace Engineering Commons^™

A Bent-Pipe Microwave Wireless Power Transfer Spacecraft For Relay To Unserved Regions, Jeremy Straub

Jeremy Straub

This paper seeks to begin a discussion about the efficacy of using a ‘bent pipe’ transmission concept (familiar to those in the communications satellite arena) for power transfer. It presents the ‘bent pipe’ concept and provides a brief qualitative consideration of the benefits of this approach. It also begins the process of quantitatively considering the efficacy of a ‘bent pipe’ mission by exploring the trade space related to frequency, antenna size and altitude.

Consideration Of The Use Of An Origami Style Solar Panel Array For A Space Solar Power Generation Satellite, Landon Klein, Tristan Plante, Alex Holland, Benjamin Kading, Jeremy Straub, David Whalen

Jeremy Straub

Since the beginning of the space race, space exploration has been an important part of America’s technological develop-ment. The notion of a power-intensive [1] mission to Mars, which utilizes 3D printing has been proposed. Space Solar Power can supply energy for this mission. This paper presents an Origami solar panel, based on work by [2], that can supply power to an outpost on Mars.

Consideration Of The Use Of A Space Solar Power Satellite System For A Manned Mars Mission, Benjamin Kading, Jeremy Straub, Tristan Plante, Alex Holland, Jordan Forbord, Landon Klein, David Whalen

Jeremy Straub

The design of a manned Mars mission has been a point of ongoing interest . Numerous Mars missions have been proposed and designed but major roadblocks impair their completion. Primarily, these issues are related to cost and safety concerns. However, many technologies have been developed and are being developed to make a Mars mission more feasible. One such technology is Space So- lar Power. (SSP) SSP technology involves generating power in space from the sun and beaming it via microwave radia- tion to a ground site for use. This method has immediate usability on Mars due to the minimal atmosphere, …

Pattern Recognition And Expert Systems For Microwave Wireless Power Transmission Failure Prevention, Cameron Kerbaugh, Allen Mcdermott, Jeremy Straub, Eunjin Kim

Jeremy Straub

Wireless power transfer (WPT) can be used to deliver space-generated power to ground stations through the use of microwave beams. WPT satellite power delivery systems have two major failure states: misdi-recting a beam and failing to send power to a station. This project has implemented an expert system to perform pattern recognition in an effort to prevent failures by analyzing the system state and predicting potential failures before they happen in support of space-based testing [1] and deployment [2].

Design Concept For A Power Generating Satellite For A Manned Mars Mission, Alex Holland, Tristan Plante, Jordan Forbord, Landon Klein, Benjamin Kading, Jeremy Straub, David Whalen

Jeremy Straub

Once proposed work in low-Earth orbit [1] to demonstrate the efficacy of wireless power transmis- sion is a mission is completed, an additional step is needed before the technology is sufficiently tested for use on Earth. A Martian mission (such as [2]) is pro- posed to allow the demonstration of the use of the wireless power transmission technology in support of and proximity to human astronaut operations.

This poster presets a satellite concept intended for use on this Mars mission, to supply power that is need- ed for human habitation and other purposes. This satel- lite is designed to be …

Pattern Recognition For Detecting Failures In Space Solar Power Systems, Allen Mcdermott, Cameron Kerbaugh, Jeremy Straub, Eunjin Kim

Jeremy Straub

This poster covers work relating to the use of expert systems and pattern recognition to attempt to identify, detect and prospectively stop patterns of activity that could potentially lead to failure of a space solar power (SSP) system. A database-based expert system has is presented to identify patterns, which can be used to determine whether a power beam could hit a unintend- ed target and potentially cause a calamity. This has been implemented via a facts-rule network via which supplied and collected facts and a rule set is used to de- termine whether the system is operating correctly (from a …

Detecting Failures In Space Solar Power Systems With Pattern Recognition, Allen Mcdermott, Cameron Kerbaugh, Jeremy Straub

Jeremy Straub

This poster covers work relating to the use of expert systems and pattern recognition to attempt to identify, detect and prospectively stop patterns of activity that could potentially lead to failure of a space solar power (SSP) system. A database-based expert system has is presented to identify patterns, which can be used to determine whether a power beam could hit a unintend-ed target and potentially cause a calamity. This has been implemented via a facts-rule network via which supplied and collected facts and a rule set is used to de-termine whether the system is operating correctly (from a holistic perspective). …

An Expert System For Microwave Wireless Power Transmission Failure Prevention, Cameron Kerbaugh, Allen Mcdermott, Jeremy Straub

Jeremy Straub

Wireless power transfer (WPT) can be used to deliver space-generated power to ground stations through the use of microwave beams. WPT satellite power delivery systems have two major failure states: misdi-recting a beam and failing to send power to a station. This project has implemented an expert system to perform pattern recognition in an effort to prevent failures by analyzing the system state and predicting potential failures before they happen in support of space-based testing [1] and deployment [2].

The Development Of A Nanosatellite-Class Sunsat At The University Of North Dakota, Corey Bergsrud, Jeremy Straub, Robert Bernaciak, Subin Shahukhal, Benjamin Kading, Karl Williams, Hossein Salehfar, Johnathan Mcclure, James Casler, David Whalen, Elizabeth Becker, Sima Noghanian

Jeremy Straub

This poster presents the details of work on the SunSat spacecraft design initiative at the University of North Dakota. This project seeks to advance technologies1 and to increase public awareness of Space Solar Power based via visualization, science and engineering work. It will also focus on the development and demonstration of a workable solution and consider the economic benefits2 that the proposed (and alternate) solutions may generate. This poster details the design project which will construct a transmitting Nano Space Solar Power Satellite (NSSPS) and a power reception satellite for a space-to-space Microwave Wireless Power (MWP) demonstration. The SmallSatstyle spacecraft4, …

A Control System For Space Solar Power, Jeremy Straub

Jeremy Straub

This poster presents an algorithm for the implementation of a control system that accepts power requests and makes distribution assignments to maximize the performance of the overall space solar power (SSP) system and meet service level agreements (SLAs). This complex process involves projecting service-customer demand into the future, projecting power availability on each servicing spacecraft and implementing corrective measures should actual craft performance not meet with planning expectations. The control system is implemented as a planning problem with some deterministic elements (craft position and generation) and some probabilistically predicted elements (interference, drag and malfunctions). A heuristic solver is proposed that …

Space Solar Power As An Enabler For A Human Mission To Mars, Corey Bergsrud, Jeremy Straub

Jeremy Straub

Space Solar Power (SSP), a technology based on the collection and aggregated transmission of light from the sun, offers an opportunity to create a deep space electrical infrastructure in order to provide the required level of power to a prospective Mars settlement. Several approaches to this challenge are presented and compared. Under the first approach, several Solar Powered Satellites (SPSs) are positioned in space between the Earth and Mars. These SPSs will capture large amounts of solar energy and transmit this energy in a focused beam via laser or microwave to relay SPSs until the energy finally reaches its Mars …

Space Solar Power Satellite Systems As A Service Provider Of Electrical Power To Lunar Industries, Corey Bergsrud, Jeremy Straub, James Casler, Sima Noghanian

Jeremy Straub

Space Solar Power (SSP) systems are poised to deliver significant benefits on Earth and elsewhere. SSP systems are based on the concept of collecting large amounts of solar energy in space and relaying the energy, in the form of microwave or laser radiation, to a receiving array that converts the transmitted energy into usable energy at the destination. An increase in space enterprise dictates the requirement for a continuous supply of energy in order to maintain human-supporting and robotic operation. SSP systems can form a part of the solution to this need. They can be utilized as a service provider …

Orbital Position, Transmission Path And Spacecraft Attitude Determination For A Solar Power Spacecraft, Jeremy Straub, Corey Bergsrud

Jeremy Straub

A constellation of solar power spacecraft (SPS) to provide power to orbital assets or ground locations (on Earth or another planet) requires software to determine what the most efficient configuration of the spacecraft is (to service all required clients with the required service level) and how to achieve this configuration.

This paper presents an algorithm for attitude control and constellation design and implementation for these spacecraft. This algorithm makes trade-offs between servicing multiple (possibly conflicting) orbital consumer needs, attitude change costs and constellation sustainability. The paper concludes by considering the processing requirements imposed on the spacecraft by this software, across …

Business Case For A Constellation Of 6u Solar Powered Cubesats In Leo, Corey Bergsrud, Jeremy Straub, Matthew Clausing, Johnathan Mcclure, James Casler, Sima Noghanian

Jeremy Straub

This paper presents a business case for launching a constellation of 6U Solar Power CubeSats (SPCS) to low-Earth orbit (LEO) to provide power to other spacecraft. This approach may prove economically feasible as a business endeavor, as it allows power to be transmitted in a high-density manner via microwave frequencies reducing the collection surface area required on the consumer spacecraft significantly and reducing the requirement for energy storage.

Several 6U SPCS units can target their energy streams to form a swath of energy to provide an increased aggregate level of power transfer to a particular craft as it flies though …

The Road To A Space Solar Power Cubesat In North Dakota, Corey Bergsrud, Jeremy Straub, Sima Noghanian

Jeremy Straub

Presents current work at the University of North Dakota related to the long-term development of a Solar Power Satellite (SPS).

Constructing A Constellation Of 6u Solar Power Cube Satellites, Corey Bergsrud, Jeremy Straub, Matthew Clausing, Johnathan Mcclure, Sima Noghanian

Jeremy Straub

The development of a constellation of 6U CubeSats is proposed to collect solar power in space and utilize it to power other spacecraft through space-to-space microwave wireless power transmission (MWPT). This allows power generation capabilities to be moved from being on-board each consumer craft to a centralized collection of nodes that can be replaced, as needed, as their solar cells efficiency diminishes overtime (or craft fail, etc.). This paper presents an overview of a 6U Solar Power CubeSat (SPCS) with deployable solar panels for use in low-Earth orbit (LEO). The capabilities of the spacecraft are detailed as are several prospective …

A 6-U Commercial Constellation For Space Solar Power Supply To Other Spacecraft, Corey Bergsrud, Jeremy Straub

Jeremy Straub

This poster presents early stage planning for a constellation

of 6-U CubeSats which will collect power from

the sun and supply it to other spacecraft in Earth orbit. Unlike

solar panels (which have a known decay rate), antenna

systems (such as would be required to receive microwavetransmitted

power) do not substantially decay over the

typical (or prospectively extended, under this model)

spacecraft lifetime. This allows a spacecraft to be built for

long-term operations (utilizing an electric propulsion technology

and/or a greater supply of conventional propellant)

and receive power from a lower-cost utility provider

spacecraft, which can be replaced on a …

Orbit-To-Ground Wireless Power Transfer Test Mission, Corey Bergsrud, Sima Noghanian, Jeremy Straub, David Whalen, Ronald Fevig

Jeremy Straub

Since the 1970s the concept of transferring power from orbit for use on Earth has had a great deal of consideration for future energy and environmental sustainability here on Earth. The cost, size and complexity of a production-grade system are extremely large, and have many environmental considerations. There has never been a publicly disclosed orbit-to-ground power transfer test mission. A proposed project provides an opportunity to test the conceptual operation of such a system, albeit at a much lower power level than the ‘grand’ or ‘real scale’ system. During this test, a small Solar Powered (SP) 6-U CubSat will be …