This document provides an overview of the nanosatellite industry as of August 2015. It discusses trends in the industry including increasing commercialization, larger constellations, improved technologies for earth imaging, communications, and propulsion. While nanosatellites were once primarily educational projects, the document notes that commercial companies now contribute over 25% of nanosatellites launched annually and are expected to dominate the market going forward. The success rate of nanosatellite missions has also increased to over 90% in recent years.
Nanosatellite industry overview updated 022014Meidad Pariente
This document provides an overview of the nanosatellite industry as of February 2014. It discusses trends in the industry, including increasing commercialization and constellation deployments. The success rate of nanosatellite missions has increased to over 80% in recent years. While early missions faced reliability issues, components are now very reliable and most failures are due to workmanship errors during assembly. The future of the industry is predicted to include more advanced technologies, commercial dominance over educational projects, and thousands of nanosatellites being launched in the coming years to support various applications.
Physikal - Using Kotlin for Clean Energy - KUG MunichWerner Keil
The document discusses a presentation about using Kotlin for clean energy. It introduces Physikal, a Kotlin library that provides extensions and functions for working with units of measurement based on JSR-363. Physikal allows for easy creation and manipulation of units, as well as conversions between different units like meters and feet. It also supports all common arithmetic operators on units. The presentation provides examples of how to use Physikal to add, convert, and perform comparisons between units.
JSR 363 - The Answer to Life Science and the Internet of EverythingWerner Keil
Developers who work with quantities (sensor reading from edge devices, scientific, engineering, medical, or manufacturing) need to handle measurements of these quantities in their programs. Inadequate models of physical measurements can lead to programmatic errors. In particular when modelling a measurement as a simple number with no regard to the units it represents creates fragile code. Another developer or part of the system can misinterpret the number as a different unit. For example, it may be unclear whether a person's mass is expressed in pounds, kilograms, or stones. A human reading „10°C“, „10 C“ or simply „10 Degrees“ may interpret each of those correctly. For M2M communication, unless a program contains a „Babel Fish“, such ambiguity would not be acceptable.
Don’t Panic: After programming languages like Ada, C++, Eiffel or F# added type-safe Unit support already, JSR 363, Units of Measurement API will add similar support to the Java Platform, making it competitive for M2M in the Internet of Things with strong emphasis on sensors.
This session provides an overview of popular use cases for the Units of Measurement JSR and implementations on both Java ME 8 Embedded (CLDC 8) and Java SE 8. A Hitchhiker’s guide across places where this JSR helps improve data quality or save lives by ensuring e.g. a patient receives the correct dosage of medicine or smart homes and similar energy saving measures prevents Earth from being destroyed by Global Warming (rather than waiting for a Vogon express route ;-)
With IoT it’s all about things and sensors. And when representing a temperature, for example, we normally have it as a float. But is this float in Celsius? Kelvin? This is one of the problems JSR 363 wants to solve: have all “real world” value and unit data represented in a standard way. This JSR is also very suitable for scientific applications, where data representation, conversion, and formatting are very important. In this session, you’ll see how developers as well as platform providers can leverage this JSR, coding a smart gas pump that reports its values by using Java standards. Come to meet JSR 363, Units of Measurement.
IPAST International has developed scanning technologies that can identify oil and gas reserves remotely by analyzing spectral and frequency signatures. Their GEOTECH division uses these technologies to offer services like prescreening land for potential reserves, enhancing seismic data, and establishing collaborative drilling partnerships with revenue sharing. By precisely locating the most promising resource spots before drilling, IPAST's methods aim to dramatically reduce costs and increase profits compared to conventional exploration techniques.
Climate Data Sharing for Urban Resilience - OGC Testbed 11George Percivall
OGC Testbed 11:
Delivering on our commitment to the Climate Data Initiative
In December 2014 the US White House Office of Science and Technology (OSTP) released a Policy Fact Sheet titled "Harnessing Climate Data to Boost Ecosystem & Water Resilience." The Fact Sheet includes OGC’s commitment to increase open access to climate change information using open standards. Testbed 11 results are now available delivering on that commitment.
The results of this major interoperability testbed contribute to development and refinement of international standards that are critical for the communication and integration of geospatial information. http://www.opengeospatial.org/projects/initiatives/testbed11
• Nine sponsors provided requirements and funding for Testbed 11.
• Thirty organizations participated in Testbed 11 by contributing prototypes, engineering
reports and participating in a scenario driven demonstration of the technical advances Technical results of Testbed 11 relevant to the Climate Data Initiative include:
• Analysis and prediction based on open climate data accessed using open standards
• Making predictive models more accessible with OGC Web Processing Service (WPS)
• Verifying model predictions using mobile operations, in-situ gauges and social media.
Climate adaptation, resilience and security planning based on technology from OGC Testbed 11:
• Estimating geographic extend of coastal inundation in dynamic weather conditions
• Assessing social unrest with displaced population due to climate change
• Integrating spatial and non-spatial models of human geography and resilience
• Predictive models and verifications to support planning and response phases
The document discusses active debris removal in space using tethered towing. The authors have developed a mathematical model of the attitude motion of a debris-tether-tug system. The model accounts for factors such as flexible appendages on the debris, fuel residuals, tether properties, and environmental forces. The authors aim to further study the capture dynamics of debris and stabilization after capture, and create a comprehensive model covering all stages from initial capture to atmospheric reentry.
The document discusses models and experiments to analyze the tip-off rate dynamics of CubeSats during separation from deployers. A simplified model and complex ADAMS model were developed to simulate the effects of parameters like center of mass position, spring stroke, and gap between guide rails on tip-off rate. Ground experiments using laser sensors to measure angular velocities of a 3U CubeSat mock-up showed results that agreed satisfactorily with simulations. The models and experiments allow estimating tip-off rates to help design CubeSat deployers that minimize initial angular velocities.
Nanosatellite industry overview updated 022014Meidad Pariente
This document provides an overview of the nanosatellite industry as of February 2014. It discusses trends in the industry, including increasing commercialization and constellation deployments. The success rate of nanosatellite missions has increased to over 80% in recent years. While early missions faced reliability issues, components are now very reliable and most failures are due to workmanship errors during assembly. The future of the industry is predicted to include more advanced technologies, commercial dominance over educational projects, and thousands of nanosatellites being launched in the coming years to support various applications.
Physikal - Using Kotlin for Clean Energy - KUG MunichWerner Keil
The document discusses a presentation about using Kotlin for clean energy. It introduces Physikal, a Kotlin library that provides extensions and functions for working with units of measurement based on JSR-363. Physikal allows for easy creation and manipulation of units, as well as conversions between different units like meters and feet. It also supports all common arithmetic operators on units. The presentation provides examples of how to use Physikal to add, convert, and perform comparisons between units.
JSR 363 - The Answer to Life Science and the Internet of EverythingWerner Keil
Developers who work with quantities (sensor reading from edge devices, scientific, engineering, medical, or manufacturing) need to handle measurements of these quantities in their programs. Inadequate models of physical measurements can lead to programmatic errors. In particular when modelling a measurement as a simple number with no regard to the units it represents creates fragile code. Another developer or part of the system can misinterpret the number as a different unit. For example, it may be unclear whether a person's mass is expressed in pounds, kilograms, or stones. A human reading „10°C“, „10 C“ or simply „10 Degrees“ may interpret each of those correctly. For M2M communication, unless a program contains a „Babel Fish“, such ambiguity would not be acceptable.
Don’t Panic: After programming languages like Ada, C++, Eiffel or F# added type-safe Unit support already, JSR 363, Units of Measurement API will add similar support to the Java Platform, making it competitive for M2M in the Internet of Things with strong emphasis on sensors.
This session provides an overview of popular use cases for the Units of Measurement JSR and implementations on both Java ME 8 Embedded (CLDC 8) and Java SE 8. A Hitchhiker’s guide across places where this JSR helps improve data quality or save lives by ensuring e.g. a patient receives the correct dosage of medicine or smart homes and similar energy saving measures prevents Earth from being destroyed by Global Warming (rather than waiting for a Vogon express route ;-)
With IoT it’s all about things and sensors. And when representing a temperature, for example, we normally have it as a float. But is this float in Celsius? Kelvin? This is one of the problems JSR 363 wants to solve: have all “real world” value and unit data represented in a standard way. This JSR is also very suitable for scientific applications, where data representation, conversion, and formatting are very important. In this session, you’ll see how developers as well as platform providers can leverage this JSR, coding a smart gas pump that reports its values by using Java standards. Come to meet JSR 363, Units of Measurement.
IPAST International has developed scanning technologies that can identify oil and gas reserves remotely by analyzing spectral and frequency signatures. Their GEOTECH division uses these technologies to offer services like prescreening land for potential reserves, enhancing seismic data, and establishing collaborative drilling partnerships with revenue sharing. By precisely locating the most promising resource spots before drilling, IPAST's methods aim to dramatically reduce costs and increase profits compared to conventional exploration techniques.
Climate Data Sharing for Urban Resilience - OGC Testbed 11George Percivall
OGC Testbed 11:
Delivering on our commitment to the Climate Data Initiative
In December 2014 the US White House Office of Science and Technology (OSTP) released a Policy Fact Sheet titled "Harnessing Climate Data to Boost Ecosystem & Water Resilience." The Fact Sheet includes OGC’s commitment to increase open access to climate change information using open standards. Testbed 11 results are now available delivering on that commitment.
The results of this major interoperability testbed contribute to development and refinement of international standards that are critical for the communication and integration of geospatial information. http://www.opengeospatial.org/projects/initiatives/testbed11
• Nine sponsors provided requirements and funding for Testbed 11.
• Thirty organizations participated in Testbed 11 by contributing prototypes, engineering
reports and participating in a scenario driven demonstration of the technical advances Technical results of Testbed 11 relevant to the Climate Data Initiative include:
• Analysis and prediction based on open climate data accessed using open standards
• Making predictive models more accessible with OGC Web Processing Service (WPS)
• Verifying model predictions using mobile operations, in-situ gauges and social media.
Climate adaptation, resilience and security planning based on technology from OGC Testbed 11:
• Estimating geographic extend of coastal inundation in dynamic weather conditions
• Assessing social unrest with displaced population due to climate change
• Integrating spatial and non-spatial models of human geography and resilience
• Predictive models and verifications to support planning and response phases
The document discusses active debris removal in space using tethered towing. The authors have developed a mathematical model of the attitude motion of a debris-tether-tug system. The model accounts for factors such as flexible appendages on the debris, fuel residuals, tether properties, and environmental forces. The authors aim to further study the capture dynamics of debris and stabilization after capture, and create a comprehensive model covering all stages from initial capture to atmospheric reentry.
The document discusses models and experiments to analyze the tip-off rate dynamics of CubeSats during separation from deployers. A simplified model and complex ADAMS model were developed to simulate the effects of parameters like center of mass position, spring stroke, and gap between guide rails on tip-off rate. Ground experiments using laser sensors to measure angular velocities of a 3U CubeSat mock-up showed results that agreed satisfactorily with simulations. The models and experiments allow estimating tip-off rates to help design CubeSat deployers that minimize initial angular velocities.
The document discusses several myths and facts regarding nanosatellite reliability. The myths are that nanosatellites have low reliability at less than 50% success rates, components are unreliable and cause failures, and nanosatellites do not last long in space. However, the facts provided show the success rate of nanosatellites in the last five years is about 80%, components themselves are reliable with the main issues stemming from poor workmanship, and there are nanosatellites still operational from as far back as 2003, with average mission lifetimes of around 40 months. The document concludes that following proven methodologies, especially during assembly, integration and testing, is important for nanosatellite reliability and success.
The document provides an overview of trends in the nanosatellite industry as of October 2013. It discusses how nanosatellites are categorized based on weight, trends of increasing users from educational to commercial applications, enabling technologies like improved communications and attitude determination and control systems, and debunks myths about nanosatellite reliability compared to facts about operational lifetimes of over 10 years for some nanosatellites.
Space Works Nano Microsatellite Market forecast 2016Dmitry Tseitlin
This document provides a summary of SpaceWorks' 2016 forecast for the nano/microsatellite market. Some key points:
- SpaceWorks predicts over 480 nano/microsatellites (1-50kg) will launch globally in 2016-2018, a 35% increase from their 2014 forecast, driven by growing commercial interest.
- The commercial sector is expected to contribute over 70% of future satellites compared to 37% in 2009-2015.
- More than 70% of future satellites will be used for Earth observation and remote sensing, compared to 37% in 2009-2015.
- While still popular for academia, 1-3kg CubeSats will decline to under 30% of the market
The new thrust in the Indian space program aims to harness space technology for national development through various applications and infrastructure. Key goals include supporting socioeconomic development through services like remote sensing, communications, and navigation. The program also seeks to enhance capacity building, increase industry participation, and expand international cooperation. Recent accomplishments demonstrate increased satellite throughput, with ISRO successfully launching over 30 missions in the last three years. The organization is working to further scale up production capabilities and transition more activities to Indian industries.
Past and future trends in PV Industry developmentsLeonardo ENERGY
The document discusses trends in the global photovoltaic (PV) market based on data from the International Energy Agency Photovoltaic Power Systems Programme (IEA PVPS). It notes that total installed PV capacity reached around 400 GW globally in 2017, with China dominating new installations. The utility-scale solar segment grew significantly while distributed generation was more stable. It also reviews manufacturing and technology trends, including the continued dominance of China's PV industry and the shift towards higher efficiency polycrystalline and monocrystalline silicon modules.
Cloud Testbeds for Standards Development and InnovationAlan Sill
Invited talk given at the 2014 Chip-to-Cloud Security Forum "Advances in Securing Embedded, Mobile and Cloud Services and Ecosystems" in the seminar session on "Procurement, SLAs, and Standardisation on a Global Scale." In this talk, Dr. Sill reviews the history of cloud and grid computing, the formation and charter description for Phases I and II of the US National Institute of Standards and Technology (NIST) "SAJACC" working group, and brings the discussion up to date with an overview of current "DevOps"-oriented cloud standards and software interoperability hands-on testing efforts worldwide.
Jinko Solar is a vertically integrated solar module manufacturer with 1.5GW of annual module production capacity in 2011. It has a global sales network covering major solar markets in Europe, North America, and Asia. Jinko Solar produces ingots, wafers, cells and modules through 64 in-line quality control processes. It provides competitive pricing through economies of scale and a 12-year 90%/25-year 80% power output warranty. Jinko Solar has supplied solar projects totaling over 100MW across Europe, USA, and other regions and aims to be a leading global solar brand through reliable product delivery and a focus on people, planet and profit.
Jinko Solar is a vertically integrated solar module manufacturer with 1.5GW of annual module production capacity in 2011. It has a global sales network covering major solar markets in Europe, North America, and Asia. Jinko Solar produces ingots, wafers, cells and modules through 64 in-line quality control processes. It provides competitive pricing through economies of scale and a 12-year 90%/25-year 80% power output warranty. Jinko Solar has supplied solar projects totaling over 100MW across Europe, USA, and other regions and aims to be a leading global solar brand through reliable product delivery and a focus on people, planet and profit.
ASICs for particle and radiation detectionGunnar Maehlum
- Integrated Detector Electronics AS (IDE AS) was founded in 1992 as a spin-off from Norway's high energy physics activities at CERN and focuses on designing ASICs (application-specific integrated circuits) for particle and gamma radiation detection.
- The company has designed over 100 ASICs for applications in medicine, biology, astrophysics, and high energy physics. Their ASICs have been used in experiments at CERN and on various space missions.
- IDE AS employs 12 people from 7 countries with expertise in physics and engineering to develop customized and radiation-hardened ASICs for scientific customers worldwide.
This document outlines a business plan for a nanosatellite network project called Small Planet NanoGuard. The plan involves 3 stages: 1) developing and selling nanosatellite platforms, 2) developing an IT platform for geospatial services using sensors on the satellites, and 3) launching and maintaining their own constellation of nanosatellites to provide unique geospatial services. The company has had early success launching demonstration satellites and has teams of founders with extensive experience in business and engineering to develop the technology and commercial aspects of the plan.
Mycle Schneider's presentation on the World Nuclear ReportMatthew Le Cordeur
The document discusses trends in the global nuclear industry based on data from the IAEA-PRIS database. Some key points:
- There have been more reactor shutdowns than startups globally since the 1990s, with the exception of China which has seen significant growth.
- Construction times for reactors have increased substantially over time, now averaging over 9 years globally compared to 5-6 years historically.
- Nuclear electricity production peaked in 2006 and has declined slightly since, now providing around 10% of global electricity.
PV Manufacturing in Europe - European Technology and Innovation Platform Phot...Cluster TWEED
The PV Manufacturing in Europe Conference organised by the European Technology and Innovation Platform for Photovoltaics (ETIP PV) took place on 18 & 19 May 2017, at the BIP House in Brussels.
Key industry leaders, scientists, engineers, and policy makers joined to debate the status and future of "PV Manufacturing in Europe". Over 120 PV specialists from 16 European countries attended the conference.
The document discusses the growth of small satellites or smallsats, including NewSpace constellations. Over 3,600 smallsats are expected to be launched between 2016 and 2025 for applications like Earth observation, technology demonstration, satellite communications, science, and space situational awareness. The value of the smallsat market is estimated to reach $22 billion during this period, driven largely by planned constellations like OneWeb. New dedicated smallsat manufacturers are entering the market to provide flexible and lower-cost satellite solutions to support the growing demand.
This document discusses the NANOSAT project which aims to promote the use of nanosatellites in Europe. It notes that nanosatellites are increasingly being used by universities, research institutes, developing nations and the military. The project will bring together European partners involved in nanosatellites to develop best practices, demonstrate applications, and complement GMES services. It will analyze potential markets, complete studies on opportunities and best practices, and propose nanosatellite missions to support European space policy and innovation through 2020. The expected impacts are a more cost-effective S&T platform, added value to GMES, and new business models for space missions.
This document discusses various applications of microsatellites including expanding access to space for countries, conducting science experiments in orbit related to biology and atmospheric research, demonstrating new technologies, supporting education through university and high school satellite projects, enabling private imaging satellites, and allowing amateur satellite projects. The future applications discussed include using microsatellites as auxiliary payloads on interplanetary missions and as constellations. The conclusion predicts that 2,000-2,750 nano/microsatellites will require launches between 2014-2020 based on a market assessment.
Global space congress 2017 - German Orbital Systems Presentation.
Decription of German Orbital Systems approach to innovative cost-efficient space missions.
Global space congress 2017 - German Orbital Systems PresentationIKosenkov
Global space congress 2017 - German Orbital Systems Presentation.
Decription of German Orbital Systems approach to innovative cost-efficient space missions.
The document discusses recent trends in photonic devices. It begins by defining optics and photonics, and describes some applications of photonics including information technology, healthcare, sensing, lighting and displays. It then explains that photonic devices manipulate or detect light, providing examples like lasers, LEDs and solar cells. The document goes on to discuss latest trends like nanophotonics using graphene, carbon nanotubes and photonic crystals. It also covers silicon photonic devices using silicon-germanium transistors and germanium-tin phototransistors. In conclusion, it predicts future applications of photonics in areas like e-paper, solar panels and light-emitting fabrics.
ScyllaDB is making a major architecture shift. We’re moving from vNode replication to tablets – fragments of tables that are distributed independently, enabling dynamic data distribution and extreme elasticity. In this keynote, ScyllaDB co-founder and CTO Avi Kivity explains the reason for this shift, provides a look at the implementation and roadmap, and shares how this shift benefits ScyllaDB users.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
More Related Content
Similar to Nanosatellite industry overview updated aug 2015
The document discusses several myths and facts regarding nanosatellite reliability. The myths are that nanosatellites have low reliability at less than 50% success rates, components are unreliable and cause failures, and nanosatellites do not last long in space. However, the facts provided show the success rate of nanosatellites in the last five years is about 80%, components themselves are reliable with the main issues stemming from poor workmanship, and there are nanosatellites still operational from as far back as 2003, with average mission lifetimes of around 40 months. The document concludes that following proven methodologies, especially during assembly, integration and testing, is important for nanosatellite reliability and success.
The document provides an overview of trends in the nanosatellite industry as of October 2013. It discusses how nanosatellites are categorized based on weight, trends of increasing users from educational to commercial applications, enabling technologies like improved communications and attitude determination and control systems, and debunks myths about nanosatellite reliability compared to facts about operational lifetimes of over 10 years for some nanosatellites.
Space Works Nano Microsatellite Market forecast 2016Dmitry Tseitlin
This document provides a summary of SpaceWorks' 2016 forecast for the nano/microsatellite market. Some key points:
- SpaceWorks predicts over 480 nano/microsatellites (1-50kg) will launch globally in 2016-2018, a 35% increase from their 2014 forecast, driven by growing commercial interest.
- The commercial sector is expected to contribute over 70% of future satellites compared to 37% in 2009-2015.
- More than 70% of future satellites will be used for Earth observation and remote sensing, compared to 37% in 2009-2015.
- While still popular for academia, 1-3kg CubeSats will decline to under 30% of the market
The new thrust in the Indian space program aims to harness space technology for national development through various applications and infrastructure. Key goals include supporting socioeconomic development through services like remote sensing, communications, and navigation. The program also seeks to enhance capacity building, increase industry participation, and expand international cooperation. Recent accomplishments demonstrate increased satellite throughput, with ISRO successfully launching over 30 missions in the last three years. The organization is working to further scale up production capabilities and transition more activities to Indian industries.
Past and future trends in PV Industry developmentsLeonardo ENERGY
The document discusses trends in the global photovoltaic (PV) market based on data from the International Energy Agency Photovoltaic Power Systems Programme (IEA PVPS). It notes that total installed PV capacity reached around 400 GW globally in 2017, with China dominating new installations. The utility-scale solar segment grew significantly while distributed generation was more stable. It also reviews manufacturing and technology trends, including the continued dominance of China's PV industry and the shift towards higher efficiency polycrystalline and monocrystalline silicon modules.
Cloud Testbeds for Standards Development and InnovationAlan Sill
Invited talk given at the 2014 Chip-to-Cloud Security Forum "Advances in Securing Embedded, Mobile and Cloud Services and Ecosystems" in the seminar session on "Procurement, SLAs, and Standardisation on a Global Scale." In this talk, Dr. Sill reviews the history of cloud and grid computing, the formation and charter description for Phases I and II of the US National Institute of Standards and Technology (NIST) "SAJACC" working group, and brings the discussion up to date with an overview of current "DevOps"-oriented cloud standards and software interoperability hands-on testing efforts worldwide.
Jinko Solar is a vertically integrated solar module manufacturer with 1.5GW of annual module production capacity in 2011. It has a global sales network covering major solar markets in Europe, North America, and Asia. Jinko Solar produces ingots, wafers, cells and modules through 64 in-line quality control processes. It provides competitive pricing through economies of scale and a 12-year 90%/25-year 80% power output warranty. Jinko Solar has supplied solar projects totaling over 100MW across Europe, USA, and other regions and aims to be a leading global solar brand through reliable product delivery and a focus on people, planet and profit.
Jinko Solar is a vertically integrated solar module manufacturer with 1.5GW of annual module production capacity in 2011. It has a global sales network covering major solar markets in Europe, North America, and Asia. Jinko Solar produces ingots, wafers, cells and modules through 64 in-line quality control processes. It provides competitive pricing through economies of scale and a 12-year 90%/25-year 80% power output warranty. Jinko Solar has supplied solar projects totaling over 100MW across Europe, USA, and other regions and aims to be a leading global solar brand through reliable product delivery and a focus on people, planet and profit.
ASICs for particle and radiation detectionGunnar Maehlum
- Integrated Detector Electronics AS (IDE AS) was founded in 1992 as a spin-off from Norway's high energy physics activities at CERN and focuses on designing ASICs (application-specific integrated circuits) for particle and gamma radiation detection.
- The company has designed over 100 ASICs for applications in medicine, biology, astrophysics, and high energy physics. Their ASICs have been used in experiments at CERN and on various space missions.
- IDE AS employs 12 people from 7 countries with expertise in physics and engineering to develop customized and radiation-hardened ASICs for scientific customers worldwide.
This document outlines a business plan for a nanosatellite network project called Small Planet NanoGuard. The plan involves 3 stages: 1) developing and selling nanosatellite platforms, 2) developing an IT platform for geospatial services using sensors on the satellites, and 3) launching and maintaining their own constellation of nanosatellites to provide unique geospatial services. The company has had early success launching demonstration satellites and has teams of founders with extensive experience in business and engineering to develop the technology and commercial aspects of the plan.
Mycle Schneider's presentation on the World Nuclear ReportMatthew Le Cordeur
The document discusses trends in the global nuclear industry based on data from the IAEA-PRIS database. Some key points:
- There have been more reactor shutdowns than startups globally since the 1990s, with the exception of China which has seen significant growth.
- Construction times for reactors have increased substantially over time, now averaging over 9 years globally compared to 5-6 years historically.
- Nuclear electricity production peaked in 2006 and has declined slightly since, now providing around 10% of global electricity.
PV Manufacturing in Europe - European Technology and Innovation Platform Phot...Cluster TWEED
The PV Manufacturing in Europe Conference organised by the European Technology and Innovation Platform for Photovoltaics (ETIP PV) took place on 18 & 19 May 2017, at the BIP House in Brussels.
Key industry leaders, scientists, engineers, and policy makers joined to debate the status and future of "PV Manufacturing in Europe". Over 120 PV specialists from 16 European countries attended the conference.
The document discusses the growth of small satellites or smallsats, including NewSpace constellations. Over 3,600 smallsats are expected to be launched between 2016 and 2025 for applications like Earth observation, technology demonstration, satellite communications, science, and space situational awareness. The value of the smallsat market is estimated to reach $22 billion during this period, driven largely by planned constellations like OneWeb. New dedicated smallsat manufacturers are entering the market to provide flexible and lower-cost satellite solutions to support the growing demand.
This document discusses the NANOSAT project which aims to promote the use of nanosatellites in Europe. It notes that nanosatellites are increasingly being used by universities, research institutes, developing nations and the military. The project will bring together European partners involved in nanosatellites to develop best practices, demonstrate applications, and complement GMES services. It will analyze potential markets, complete studies on opportunities and best practices, and propose nanosatellite missions to support European space policy and innovation through 2020. The expected impacts are a more cost-effective S&T platform, added value to GMES, and new business models for space missions.
This document discusses various applications of microsatellites including expanding access to space for countries, conducting science experiments in orbit related to biology and atmospheric research, demonstrating new technologies, supporting education through university and high school satellite projects, enabling private imaging satellites, and allowing amateur satellite projects. The future applications discussed include using microsatellites as auxiliary payloads on interplanetary missions and as constellations. The conclusion predicts that 2,000-2,750 nano/microsatellites will require launches between 2014-2020 based on a market assessment.
Global space congress 2017 - German Orbital Systems Presentation.
Decription of German Orbital Systems approach to innovative cost-efficient space missions.
Global space congress 2017 - German Orbital Systems PresentationIKosenkov
Global space congress 2017 - German Orbital Systems Presentation.
Decription of German Orbital Systems approach to innovative cost-efficient space missions.
The document discusses recent trends in photonic devices. It begins by defining optics and photonics, and describes some applications of photonics including information technology, healthcare, sensing, lighting and displays. It then explains that photonic devices manipulate or detect light, providing examples like lasers, LEDs and solar cells. The document goes on to discuss latest trends like nanophotonics using graphene, carbon nanotubes and photonic crystals. It also covers silicon photonic devices using silicon-germanium transistors and germanium-tin phototransistors. In conclusion, it predicts future applications of photonics in areas like e-paper, solar panels and light-emitting fabrics.
Similar to Nanosatellite industry overview updated aug 2015 (20)
ScyllaDB is making a major architecture shift. We’re moving from vNode replication to tablets – fragments of tables that are distributed independently, enabling dynamic data distribution and extreme elasticity. In this keynote, ScyllaDB co-founder and CTO Avi Kivity explains the reason for this shift, provides a look at the implementation and roadmap, and shares how this shift benefits ScyllaDB users.
The Microsoft 365 Migration Tutorial For Beginner.pptxoperationspcvita
This presentation will help you understand the power of Microsoft 365. However, we have mentioned every productivity app included in Office 365. Additionally, we have suggested the migration situation related to Office 365 and how we can help you.
You can also read: https://www.systoolsgroup.com/updates/office-365-tenant-to-tenant-migration-step-by-step-complete-guide/
Session 1 - Intro to Robotic Process Automation.pdfUiPathCommunity
👉 Check out our full 'Africa Series - Automation Student Developers (EN)' page to register for the full program:
https://bit.ly/Automation_Student_Kickstart
In this session, we shall introduce you to the world of automation, the UiPath Platform, and guide you on how to install and setup UiPath Studio on your Windows PC.
📕 Detailed agenda:
What is RPA? Benefits of RPA?
RPA Applications
The UiPath End-to-End Automation Platform
UiPath Studio CE Installation and Setup
💻 Extra training through UiPath Academy:
Introduction to Automation
UiPath Business Automation Platform
Explore automation development with UiPath Studio
👉 Register here for our upcoming Session 2 on June 20: Introduction to UiPath Studio Fundamentals: https://community.uipath.com/events/details/uipath-lagos-presents-session-2-introduction-to-uipath-studio-fundamentals/
Northern Engraving | Nameplate Manufacturing Process - 2024Northern Engraving
Manufacturing custom quality metal nameplates and badges involves several standard operations. Processes include sheet prep, lithography, screening, coating, punch press and inspection. All decoration is completed in the flat sheet with adhesive and tooling operations following. The possibilities for creating unique durable nameplates are endless. How will you create your brand identity? We can help!
Connector Corner: Seamlessly power UiPath Apps, GenAI with prebuilt connectorsDianaGray10
Join us to learn how UiPath Apps can directly and easily interact with prebuilt connectors via Integration Service--including Salesforce, ServiceNow, Open GenAI, and more.
The best part is you can achieve this without building a custom workflow! Say goodbye to the hassle of using separate automations to call APIs. By seamlessly integrating within App Studio, you can now easily streamline your workflow, while gaining direct access to our Connector Catalog of popular applications.
We’ll discuss and demo the benefits of UiPath Apps and connectors including:
Creating a compelling user experience for any software, without the limitations of APIs.
Accelerating the app creation process, saving time and effort
Enjoying high-performance CRUD (create, read, update, delete) operations, for
seamless data management.
Speakers:
Russell Alfeche, Technology Leader, RPA at qBotic and UiPath MVP
Charlie Greenberg, host
Freshworks Rethinks NoSQL for Rapid Scaling & Cost-EfficiencyScyllaDB
Freshworks creates AI-boosted business software that helps employees work more efficiently and effectively. Managing data across multiple RDBMS and NoSQL databases was already a challenge at their current scale. To prepare for 10X growth, they knew it was time to rethink their database strategy. Learn how they architected a solution that would simplify scaling while keeping costs under control.
Main news related to the CCS TSI 2023 (2023/1695)Jakub Marek
An English 🇬🇧 translation of a presentation to the speech I gave about the main changes brought by CCS TSI 2023 at the biggest Czech conference on Communications and signalling systems on Railways, which was held in Clarion Hotel Olomouc from 7th to 9th November 2023 (konferenceszt.cz). Attended by around 500 participants and 200 on-line followers.
The original Czech 🇨🇿 version of the presentation can be found here: https://www.slideshare.net/slideshow/hlavni-novinky-souvisejici-s-ccs-tsi-2023-2023-1695/269688092 .
The videorecording (in Czech) from the presentation is available here: https://youtu.be/WzjJWm4IyPk?si=SImb06tuXGb30BEH .
What is an RPA CoE? Session 1 – CoE VisionDianaGray10
In the first session, we will review the organization's vision and how this has an impact on the COE Structure.
Topics covered:
• The role of a steering committee
• How do the organization’s priorities determine CoE Structure?
Speaker:
Chris Bolin, Senior Intelligent Automation Architect Anika Systems
Conversational agents, or chatbots, are increasingly used to access all sorts of services using natural language. While open-domain chatbots - like ChatGPT - can converse on any topic, task-oriented chatbots - the focus of this paper - are designed for specific tasks, like booking a flight, obtaining customer support, or setting an appointment. Like any other software, task-oriented chatbots need to be properly tested, usually by defining and executing test scenarios (i.e., sequences of user-chatbot interactions). However, there is currently a lack of methods to quantify the completeness and strength of such test scenarios, which can lead to low-quality tests, and hence to buggy chatbots.
To fill this gap, we propose adapting mutation testing (MuT) for task-oriented chatbots. To this end, we introduce a set of mutation operators that emulate faults in chatbot designs, an architecture that enables MuT on chatbots built using heterogeneous technologies, and a practical realisation as an Eclipse plugin. Moreover, we evaluate the applicability, effectiveness and efficiency of our approach on open-source chatbots, with promising results.
zkStudyClub - LatticeFold: A Lattice-based Folding Scheme and its Application...Alex Pruden
Folding is a recent technique for building efficient recursive SNARKs. Several elegant folding protocols have been proposed, such as Nova, Supernova, Hypernova, Protostar, and others. However, all of them rely on an additively homomorphic commitment scheme based on discrete log, and are therefore not post-quantum secure. In this work we present LatticeFold, the first lattice-based folding protocol based on the Module SIS problem. This folding protocol naturally leads to an efficient recursive lattice-based SNARK and an efficient PCD scheme. LatticeFold supports folding low-degree relations, such as R1CS, as well as high-degree relations, such as CCS. The key challenge is to construct a secure folding protocol that works with the Ajtai commitment scheme. The difficulty, is ensuring that extracted witnesses are low norm through many rounds of folding. We present a novel technique using the sumcheck protocol to ensure that extracted witnesses are always low norm no matter how many rounds of folding are used. Our evaluation of the final proof system suggests that it is as performant as Hypernova, while providing post-quantum security.
Paper Link: https://eprint.iacr.org/2024/257
Northern Engraving | Modern Metal Trim, Nameplates and Appliance PanelsNorthern Engraving
What began over 115 years ago as a supplier of precision gauges to the automotive industry has evolved into being an industry leader in the manufacture of product branding, automotive cockpit trim and decorative appliance trim. Value-added services include in-house Design, Engineering, Program Management, Test Lab and Tool Shops.
From Natural Language to Structured Solr Queries using LLMsSease
This talk draws on experimentation to enable AI applications with Solr. One important use case is to use AI for better accessibility and discoverability of the data: while User eXperience techniques, lexical search improvements, and data harmonization can take organizations to a good level of accessibility, a structural (or “cognitive” gap) remains between the data user needs and the data producer constraints.
That is where AI – and most importantly, Natural Language Processing and Large Language Model techniques – could make a difference. This natural language, conversational engine could facilitate access and usage of the data leveraging the semantics of any data source.
The objective of the presentation is to propose a technical approach and a way forward to achieve this goal.
The key concept is to enable users to express their search queries in natural language, which the LLM then enriches, interprets, and translates into structured queries based on the Solr index’s metadata.
This approach leverages the LLM’s ability to understand the nuances of natural language and the structure of documents within Apache Solr.
The LLM acts as an intermediary agent, offering a transparent experience to users automatically and potentially uncovering relevant documents that conventional search methods might overlook. The presentation will include the results of this experimental work, lessons learned, best practices, and the scope of future work that should improve the approach and make it production-ready.
In the realm of cybersecurity, offensive security practices act as a critical shield. By simulating real-world attacks in a controlled environment, these techniques expose vulnerabilities before malicious actors can exploit them. This proactive approach allows manufacturers to identify and fix weaknesses, significantly enhancing system security.
This presentation delves into the development of a system designed to mimic Galileo's Open Service signal using software-defined radio (SDR) technology. We'll begin with a foundational overview of both Global Navigation Satellite Systems (GNSS) and the intricacies of digital signal processing.
The presentation culminates in a live demonstration. We'll showcase the manipulation of Galileo's Open Service pilot signal, simulating an attack on various software and hardware systems. This practical demonstration serves to highlight the potential consequences of unaddressed vulnerabilities, emphasizing the importance of offensive security practices in safeguarding critical infrastructure.
"What does it really mean for your system to be available, or how to define w...Fwdays
We will talk about system monitoring from a few different angles. We will start by covering the basics, then discuss SLOs, how to define them, and why understanding the business well is crucial for success in this exercise.
2. Content of the Presentation
• Introduction
• Trends and Hot Topics
• Imaging nanosatellites and big data
• Is This a valid business?
• Myths Vs. Facts
Pariente - Nanosatellite Industry
Overview
Aug 20152
3. Cut to the Chase
• COTS in LEO has proven to be eminently capable …
yet end-users exhibit strong reluctance to use it.
• Community has not learned the lesson of PC vs. Mac
• Perfect is the enemy of Good Enough … If you aim for
perfect in nanosats, you will miss the cost-
effective solution
• Like PCs, CubeSats are disposable (plan to 3-5
years missions)
Andrew E. Kalman, President & CTO, Pumpkin, Inc.
Director, SSDL, Stanford University, July 2012
Pariente - Nanosatellite Industry
Overview
Aug 20153
4. Introduction (1)
• Satellites are categorized by their weight
according to the following key:
– Less than 1 kg: Pico satellite
– Less than 10 kg: Nano satellite
– Less than 100 kg: Micro satellite
• Recently NASA AMES changed the scale
– Less than 5kg: Pico satellite
– Less than 50kg: Nano satellite
– Less than 200 kg: Micro satellite
Credit: NASA
Pariente - Nanosatellite Industry
Overview
Aug 20154
5. Introduction (2)
• Nanosatellite Market growing rapidly
– Cubesats: Conception in 2000
– First missions launched in 2003
– 10-20 projects in 2004
– >300 projects ongoing now (estimate)
– Since 2013, >70 launched per year
– SpaceWorks’ 2014 Projection estimated
between 140 and 143 nano/microsatellites
across all sectors would launch globally in 2014;
158 nano/microsatellites were actually
launched.
• In 2014, 106 commercial
nano/microsatellites (1-50 kg) launched
Pariente - Nanosatellite Industry
Overview
Aug 20155
11. Trends and Hot Topics
Pariente - Nanosatellite Industry
Overview
Aug 201511
12. CubeSat Generations
• 1st : Modern Sputniks
• 2nd : Utility of the 3U is demonstrated
• 3rd : More power, attitude control &
determination, propulsion
• 4th : Constellations are here !
• 5th : AI collaborative entities
• 6th : Megaconstellations
Pariente - Nanosatellite Industry
Overview
Aug 201512
13. Trends / Hot Topics
• Earth Imaging/video
• EDAC enabled OBC’s
• >20Krad TID
• ~80W Power systems
• ~100Mbps Comms
• AIS/ADS-B
• Propulsion (gas and plasma)
• Constellations !!
Pariente - Nanosatellite Industry
Overview
Aug 201513
16. Focus on ADCS
iADCS-100 from BST MAI-400 from MAI
Main sensor: STR
Main actuators: RW
Accuracy: <0.1 deg 3 sigma
Automatic pointing: Yes
Main sensor: ES+SS
Main actuators: RW
Accuracy: <0.1 deg 3 sigma
Automatic pointing: Yes
XACT from BCT
Main sensor: STR
Main actuators: RW
Accuracy: <0.02 deg 3 sigma
Automatic pointing: Yes
Pariente - Nanosatellite Industry
Overview
Aug 201516
20. New Assembly scheme - Monarch
Pariente - Nanosatellite Industry
Overview
Aug 201520
21. Imagine Satellites and Big Data
What (On earth) can be done with
Yottabyte of data ??
Aug 2015
Pariente - Nanosatellite Industry
Overview
21
22. The World is about to change
• Three major satellite constellations will be fully
operational within three to five years
– SkyBox (24 satellites: Video + images)
– Planet Labs (100-200 satellites: images including IR)
– Spire (60-100 Satellites: images for weather forcast)
• Live video streaming called Urthecast (2 cameras 4K
each, color) will be operational within months
• Fully Operational, these constellations, along with
Urthecast will generate about 2.98 Exabytes of data per
day (That’s about 1.08 Zettabytes per year)
– 480 Mbyte/sec * 6 hours/day * 24 (SkyBox) * 100 (Planet
Labs) * 60 (Spire) * 2 (Urthecast)
Aug 2015
Pariente - Nanosatellite Industry
Overview
22
23. Yottabyte ??? What is Yottabyte
Yottabyte (1024)
= 1024 Zettabytes (1021)
= 1048576 Exabytes (1018)
= 1073741824 Petabytes (1015)
= 1099511627776 Terabytes (1012)
= 1125899906842624 Gigabytes (109)
= 1152921504606846976 Megabytes (106)
= 1180591620717411303424 Kilobytes (103)
= 1,208,925,819,614,629,174,706,176 bytes
interesting fact: 2 Petabytes would store the entire
contents of ALL US academic libraries
Aug 2015
Pariente - Nanosatellite Industry
Overview
23
28. Patch Antennas
Pariente - Nanosatellite Industry
Overview
Aug 201528
Credit: AntDevCo, ClydeSpace
14 dbi, 68 g, 7x7 cm
8 dbi, 50 g, 6.7 cm
29. Miniature Deployable High Gain
Antenna - Boeing
Pariente - Nanosatellite Industry
Overview
Aug 201529
30. Miniature Deployable High Gain
Antenna - Boeing
Pariente - Nanosatellite Industry
Overview
Aug 201530
31. Another method to deploy
Aug 2015
Pariente - Nanosatellite Industry
Overview
31
Credit: CANOPUS
32. Why deploy if you can…. Inflate ?
Credit: MIT
Pariente - Nanosatellite Industry
Overview
Aug 201532
33. Ka !! The ISARA Project (NASA)
• 100 Mbps communication in Ka
• 35 db antenna gain
• Unique “PopUp” Feed
Pariente - Nanosatellite Industry
Overview
Aug 201533
34. MarCO Ka Antenna
Aug 2015
Pariente - Nanosatellite Industry
Overview
34
"InSight MarCO Transparent" by NASA/JPL-Caltech-
37. RainCube – 35GHz SAR
Aug 2015
Pariente - Nanosatellite Industry
Overview
37
"Radar in Cubesat "by NASA/JPL
38. Livestream Video from Space
Pariente - Nanosatellite Industry
Overview
Aug 201538
•panchromatic high-definition video, in clips up to 90 seconds
long with 30 frames per second at a resolution of 1.1 meters
40. Transforming imagery into unlimited business value
Aug 2015
Pariente - Nanosatellite Industry
Overview
40
• Agriculture Health Monitoring,
• Humanitarian Aid,
• Insurance Modeling,
• Oil Storage Monitoring,
• Natural Disaster Response,
• Oil & Gas Infrastructure Monitoring,
• Financial Trading Intelligence,
• Mining Operations Monitoring,
• Carbon Monitoring,
• Maritime Monitoring
41. Is this a valid Business ?
Pariente - Nanosatellite Industry
Overview
Aug 201541
42. 2013 – The year it became a business !
Summary of 02/2014 SpaceWorks report
• Commercial companies will contribute over one
fourth of all nano/microsatellites launched in
2014
– This is a significant increase from 2013, where
the commercial sector contributed only 11%
– The continued emergence and growth of
commercial companies (see table) will result in
an even greater increase in 2015, with the
sector contributing 60% of all
nano/microsatellites launched
• Many companies have publicly revealed their
near-term intentions regarding future launches
of nano/microsatellites and the satellites’ wide
spectrum of revenue generating applications
• Other companies have been more reserved,
revealing only small details of their plans
Precise quantities aside, strong evidence suggests the commercial sector will
have a meaningful and enduring impact on the nano/microsatellite industry
Pariente - Nanosatellite Industry
Overview
Aug 201542
43. New Space is a fact
Pariente - Nanosatellite Industry
Overview
Aug 201543
49. STEM Education
• Near space experiments
• Space Camp
• Lectures
Aug 2015
Pariente - Nanosatellite Industry
Overview
49
50. The First Israeli Nanosatellite !
Aug 2015
Pariente - Nanosatellite Industry
Overview
50
Launched on 19/06/2014 with a
record breaking 37 satellites
cluster launch. Still working
51. The First Israeli Nanosat Launch
Aug 2015
Pariente - Nanosatellite Industry
Overview
51
53. Myth: Nanosatellites are not reliable, Their success rate
is less than 50%
Fact: Success rate of Nanosatellite projects for the last
five years is stable >80%
• Nanosatellites Industry is complex, and incorporates
industrial, research and academic institutes
• Discussing “Nanosatellites Reliability” without taking
into account who manufactured the satellites is like
discussing “automobile reliability” while comparing
BMW to TATA
Myth #1: Nanosatellites Reliability
Pariente - Nanosatellite Industry
Overview
Aug 201553
54. Are COTS Reliable enough ?
Excluding the three large launch campaigns in 2013-2014 the success rate is 80%
Pariente - Nanosatellite Industry
Overview
82%
91%
93%
99%
92%
95% 95%
99%
16.00
21.71
27.40
47.00
10.00
15.00
20.00
25.00
30.00
35.00
40.00
45.00
50.00
55.00
60.00
60%
65%
70%
75%
80%
85%
90%
95%
100%
2003-2014 2007-2014 2009-2014 2013-2014
Overall Succes rate
Success in Space
#/year
Aug 201554
55. Myth: COTS are not reliable, They are the cause for failures
Fact: Components are very reliable, the problem is
workmanship
• Two thirds of the projects are done by amateurs with no
experience in space standards AIT
• Technical analysis presented @2011 small sat conference
showed most failures are related to workmanship
• Flagship schools build “real” missions that work (90%
success) -
• Components are getting better all the time
– This is a competitive market with several leading manufacturers
pushing for constant quality improvement of products
Myth #2: Components Reliability
Pariente - Nanosatellite Industry
Overview
Aug 201555
56. Most satellites are being built by amateurs
Attack of the CubeSats: A Statistical Look: Michael Swartwout – Saint Louis University
Pariente - Nanosatellite Industry
Overview
Aug 201556
57. Myth: Nanosatellites that reach space last for several
months and than die
Fact: There are nanosatellites that launched more than
a decade ago and are still operational
• COTS are now RAD tolerant up to 20 Krad
• Computers are Latchup and SEU protected
• Low cost allow redundancy
– Several items in a satellite
– Several satellites (mission redundancy)
Myth #3: Nanosatellites don’t last long in space
Pariente - Nanosatellite Industry
Overview
Aug 201557
58. • Satellites active since 2003
– Cute-1
– CubeSat XI-IV
– RS-22
• Satellites active since 2005
– Cubesat XI-V
• Satellites active since 2006
– GeneSat-1
• Satellites active since 2008
– Cute-1.7 + APD II
– Delfi-C3
– SEEDS II
• Satellites active since 2009
– PRISM
– SwissCube
– BEESAT
– ITUpSAT1
Average mission lifetime > 40 months
Mission Lifetime for Nanosatellites
*source of data: Cubesat page at the AMSAT web page
Pariente - Nanosatellite Industry
Overview
Aug 201558
63. 2014 Market assessment conclusions
• The civil sector remains strong, but the eruption
of commercial companies and start-up activities
will continue to influence the nano/microsatellite
market; future launches suggest this trend will
continue
• Recent multi-million and multi-billion dollar
investments in various ventures confirm the
commercial sector’s continued interest in the
nano/microsatellite and small satellite industries.
Pariente - Nanosatellite Industry
Overview
Aug 201563
64. • 4rd Generation is here !
– Since 2012 success rate is more than 90%
• Commercial companies will dominate the CubeSat market
– EDU project will decrease to 25% of the market
• Workmanship is the main cause for failures
– Communication system failures are often due to bad wiring and
not transmitter or receiver failures
– Power system failures mostly occur due to connection loss
between solar panels and batteries
• Quality of subsystem is constantly improving
– Number of manufacturers is rising, especially in Europe
– Economical constraints derived meticulous QA
– Competitiveness in the market manifests in the form of better
quality products
• High-End customers require High-End products
– Space QA is now part of the production line
Summary
Pariente - Nanosatellite Industry
Overview
Aug 201564
65. Retrospect
• 2000 - Small Satellites in Triumph and Tribulation: A Year of Paradoxes
• 2001 - Small Satellites - Coming of Age
• 2002 - "Breakthrough Technologies" - The Foundation of the Future
• 2003 - Access to Space: Getting There is More Than Half the Battle
• 2004 - Small Satellites: Complementary or Disruptive Technology?
• 2005 - Small Satellite Standards: Key to the Future?2014 - The
Commerce of Small Satellites
• 2006 - The First Twenty Years: Where we've been, Where we're going
• 2007 - It's the Mission that Matters
Aug 2015
Pariente - Nanosatellite Industry
Overview
65
66. Retrospect
• 2008 - Big Business
• 2009 - Elements of New Space Systems
• 2010 - Connecting the Dots: Bringing Visionaries, System
Implementers & Mission Sponsors Together
• 2011 - 25 Years of Progress: Endless Prospects for the
Future
• 2012 - Enhancing Global Awareness through Small
Satellites
• 2013 - Small Satellite Constellations: Strength in Numbers
• 2014 - The Commerce of Small Satellites
• 2015 – All systems go
Aug 2015
Pariente - Nanosatellite Industry
Overview
66
67. What about EDU Projects ?
They just became smaller
Femto-sats
PocketQubes
WREN
By STADOKO UG
Pariente - Nanosatellite Industry
Overview
Aug 201567
69. Sources of Information
• 25 Years of Small Satellites
– Siegfried Janson – The Aerospace Corporation
• Attack of the CubeSats: A Statistical Look
– Michael Swartwout – Saint Louis University
• Recent CubeSat Launch Experiences on U.S. Launch Vehicles
– Jordi Puig-Suari, Roland Coelho – California Polytechnic State University; Scott Williams, Victor Aguero, Kyle
Leveque, Bryan Klofas – SRI International
• Distant Horizons: Smallsat Evolution in the Mid-to-Far Term
– Matt Bille, Paul Kolodziejski, Tom Hunsaker – Booz Allen Hamilton
• Nine Years and Counting – A Nanosatellite Designer's Perspective
– Andrew E. Kalman , President & CTO, Pumpkin, Inc. Director, SSDL, Stanford University
• Propulsion Solutions for CubeSats
– W. Dan Williams, Busek Co. Inc
• Beyond CubeSats: Operational, Responsive, Nanosatellite Missions
– Jeroen Rotteveel, ISIS- Innovative Solutions in Space
• Reliability of University-Class Spacecraft: A Statistical Look
– Prof Michael Swartwout – Saint Louis University, March 2012
• The Future of CubeSat Data Communications, 26 October 2012
– Bryan Klofas KF6ZEO, SRI International
• Nano/Microsatellite Market Assessment, February 2015
– Mr. Dominic DePasquale , Director of Washington D.C. Operations, Dr. John Bradford, President, SpaceWorks
Engineering
Pariente - Nanosatellite Industry
Overview
Aug 201569