BRN Discussion Ongoing

[TECH]

Is there a link so we can watch it too? Thx

 

[supersonic001]

#ces2025 #edgeai #innovation #akida | BrainChip

What an Incredible Day 1 at CES 2025! The BrainChip Suite in the Venetian Tower was buzzing with energy. We showcased live demos highlighting how Akida is transforming Edge AI. Visitors also enjoyed live recordings of the All Things AI Podcast, where industry leaders shared their insights on...

www.linkedin.com

 

[Esq.111]

Well the chap in the top right picture is Spencer Huang of EDGE IMPULSE , who was also interviewed at last years CES .
* NOTE the below is from 2024.

 

[Fullmoonfever]

Wonder if we'll get an intro to these guys as some point. Co funded by the EU and have also participated in space programs with ESA and NASA.

Like to think someone at ESA may discuss us with them sometime?

Exploring the future of the Space sector

In this article we explore the challenges the space sector will face in the coming years, as well as the trends, direction and future of the space sector.

www.arquimea.com

Spanish technology for the European XFEL, the world's most important scientific X-ray facility

Neuromorphic vision is a field that draws on the workings of the human visual system to develop electronic systems that process visual information efficiently and in real time.

www.arquimea.com

What are the challenges of implementing neuromorphic vision in AI?​

Trends
December 23, 2024

Neuromorphic vision is a field that draws on the workings of the human visual system to develop electronic systems that process visual information efficiently and in real time. This approach uses sensors and algorithms designed to mimic the biological properties of the eye and brain.
Instead of capturing data in fixed frames like traditional cameras, neuromorphic sensors record individual events (changes in light intensity) at each pixel. This makes them highly efficient in terms of energy consumption and processing speed.

Origins of Neuromorphic Vision​

The term ‘neuromorphic’ was coined by Carver Mead in the 1980s. Mead, a pioneer in microelectronics, proposed to design electronic systems inspired by the structure and function of the human brain. Since then, research in neuromorphic sensors has evolved, with key milestones such as the development of event cameras (e.g. Dynamic Vision Sensor, DVS) that mimic the behaviour of the human eye.

Relationship with Artificial Intelligence (AI)​

Neuromorphic vision is closely linked to AI, providing highly optimised and relevant data for the training and execution of deep learning and machine learning algorithms. Some of its main contributions are:

1. Real-time processing: data obtained from neuromorphic sensors allows AI models to react immediately, useful in applications such as autonomous driving and robotics.
2. Energy efficiency: neuromorphic vision significantly reduces energy consumption compared to traditional cameras, improving the sustainability of AI-based applications.
3. Non-redundant data: event-specific detection allows AI systems to work with non-redundant data, improving accuracy in tasks such as object recognition or navigation.

Current and Future Impact​

The implementation of neuromorphic vision is highly recommended in sectors where low latency and energy efficiency are essential and robust real-time event processing is required. Therefore, neuromorphic vision has promising applications in sectors such as:
– Robotics: enabling improved visual perception of robots for navigation and manipulation in complex environments.
– Autonomous driving: enables fast and efficient detection of both objects and obstacles.
– Medical devices: supports some technologies such as visual prostheses or biomedical analysis.
– Security and surveillance: provides highly accurate real-time detection of suspicious movements and critical events.
– Industry and automation: aiding quality inspection systems, tracking objects on assembly lines, and industrial IoT systems.
The combination of neuromorphic vision and AI will transform the way machines perceive and understand the environment, bringing them closer to human biological processing.

What are the challenges of implementing neuromorphic vision in AI?​

Implementing neuromorphic vision in artificial intelligence presents several challenges, whether technical, economic or practical:
– Development of specialised hardware: neuromorphic sensors require advanced chips that mimic the neural activity of the brain, which are expensive and technically complex to manufacture.
– Unconventional data processing: instead of conventional images, neuromorphic sensors generate data in event format, which requires specific algorithms and new paradigms to interpret the data.
– Specialised learning algorithms: New algorithms, such as spiking neural networks (SNNs), are needed that are compatible with the asynchronous and event-driven nature of the data.
– Scalability: Algorithms and systems need to be scalable for large-scale applications, which has not yet been fully achieved.
– Lack of expertise and training: There are few experts in neuromorphic vision, and it takes time and resources to build technical teams.
In summary, neuromorphic vision has transformative potential in multiple industries. Its implementation is strategic for companies seeking technological advantage in artificial intelligence applications.

Neuromorphic Vision and Artificial Intelligence in ARQUIMEA​

ARQUIMEA, from its research center located in the Canary Islands, has a research orbital dedicated to robotics and another to Artificial Intelligence that develops projects that explore the potential of neuromorphic vision.
In addition, all ARQUIMEA Research Center projects belong to the QCIRCLE project, co-funded by the European Union, which aims to create a center of scientific excellence in Spain

 

[7für7]

For a millisecond I thought wow announcement then I thought wow an announcement

 

[KyrieIrving]

NEUROSPACE: Pioneering Neuromorphic AI Acceleration in Space-Grade Microprocessors | Activities Portal

activities.esa.int

 

[Epo]

Honda and Renesas co-op on new car just announced.

Honda and Renesas Sign Agreement to Develop High-Performance SoC for Software-Defined Vehicles

www.renesas.com

And Renesas has bought IP from BRN before, so would you think that Brainchip will be used in the 2026 Honda car, Anyone?

From around 13 mins mark, Renesas rep talked about the co-op:


This CES 2025 is opening a lot of dots.

 

[Humble Genius]

$4.78 .... in @Humble Genius opinion ... --- ...

I was contemplating $6.78, but I'm trying to be realistic.

 

[Bravo]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

Oh, and I might as well also add that the whole NASA High Performance Spaceflight Computer (HPSC) that I've been so obsessed about and in which I'm convinced our tech will be incorporated into at some point in time, well... the HPSC runs the software that controls the spacecraft's various subsystems, such as navigation, communication, power management, etc.


The HPSC processor which is being built by Microchip and will be utilising SiFive's 'Intelligence' X280 core. NASA has stated previously that initial availability will be sometime in 2024 (which didn't occur obviously, so maybe it will be ready this year) and the chip won't just be for space missions but is also expected to be utilised in applications on Earth such as defense, commercial aviation, robotics and medical equipment.

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.

Mars2020 Fact Sheet

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

 

[supersonic001]

Sorry i just have to laugh how people think this is a bad thing lol We are securing funding for the further development and progress in response to customer engagements. This is all positive.

Under the agreement the max number of shares to be issued is 40mil. this is max not min. and the amount of $20mil provided is a min of $20mil. Pager 1 of 5 Appendix 3B Maximum Number of +securities to be issued BRN ORDINARY FULLY PAID 40,000,000 So from this reading Brainchip will get $20 mil for an exchange of max 40mil shares, which means they could get $20 million for less number of shares issued.

So if the price vwap (91.5% of that) equates to say $2 (rounding to make it easy) by the time Brainchip make the call LDA would receive 10 mil shares for $20 mil dollars. Again simple math. but hey i'm no genius.

of course imo

Agree MD, otherwise….. another Prophesee potential ….. is anyone keeping up………..

 

[DingoBorat]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

Oh, and I might as well also add that the whole NASA High Performance Spaceflight Computer (HPSC) that I've been so obsessed about and in which I'm convinced our tech will be incorporated into at some point in time, well... the HPSC runs the software that controls the spacecraft's various subsystems, such as navigation, communication, power management, etc.


The HPSC processor which is being built by Microchip and will be utilising SiFive's 'Intelligence' X280 core. NASA has stated previously that initial availability will be sometime in 2024 (which didn't occur obviously, so maybe it will be ready this year) and the chip won't just be for space missions but is also expected to be utilised in applications on Earth such as defense, commercial aviation, robotics and medical equipment.

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.



View attachment 75442



Mars2020 Fact Sheet


View attachment 75443
View attachment 75444

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

FactFinder was all over this while on the crapper, Bravo.

The posts pre-date this forum.
Or else it's because he scrubbed his account on this one.

It "was" us which were able to make the rover more than 10 times faster or something, it was literally a "crawl" before and they were even thinking of changing the name, to the Mars snail.

Good to see things are still progressing.

 

[IloveLamp]

#ai | Philippe Coeurdevey

BrainChip Unveils Edge #AI Box Partner Ecosystem for Gestures, Cybersecurity, Image Recognition, and Computer Vision https://lnkd.in/dGJijUmv

www.linkedin.com

BrainChip Unveils Edge AI Box Partner Ecosystem for Gestures, Cybersecurity, Image Recognition, and Computer Vision

BrainChip today announced an all-star lineup of partners developing revolutionary technology demonstrations and products with the Akida™ Edge AI Box, a compact, cost-effective appliance with AI/ML processing power for a wide variety of markets such as manufacturing, warehouse, retail, hospitals...

www.design-reuse.com

 

[IloveLamp]

Samsung’s smart fridges will use AI to suggest groceries to buy on Instacart

More milk, please.

www.theverge.com

Samsung’s smart fridges will use AI to suggest groceries to buy on… | Chandra Maloo

Back in 2019 our team always discussed grocery replenishment as the natural next step for AI Vision Inside technology in Samsung Family Hub refrigerators. It's amazing to see that vision become a reality now! Same-day delivery wasn't a phenomenon back then, but coupled with that this would...

www.linkedin.com

 

[Pom down under]

Oh, only 5 times or so

Make it

BrainChip Unveils Edge AI Box Partner Ecosystem for Gestures, Cybersecurity, Image Recognition, and Computer Vision

BrainChip Unveils Edge AI Box Partner Ecosystem for Gestures, Cybersecurity, Image Recognition, and Computer Vision Laguna Hills, Calif. – January 7th, 2025 – BrainChip Holdings Ltd (ASX: BRN, OTCQX: BRCHF, ADR: BCHPY), the world’s first commercial producer of ultra-low power, fully digital...

brainchip.com

 

[CHIPS]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

Oh, and I might as well also add that the whole NASA High Performance Spaceflight Computer (HPSC) that I've been so obsessed about and in which I'm convinced our tech will be incorporated into at some point in time, well... the HPSC runs the software that controls the spacecraft's various subsystems, such as navigation, communication, power management, etc.


The HPSC processor which is being built by Microchip and will be utilising SiFive's 'Intelligence' X280 core. NASA has stated previously that initial availability will be sometime in 2024 (which didn't occur obviously, so maybe it will be ready this year) and the chip won't just be for space missions but is also expected to be utilised in applications on Earth such as defense, commercial aviation, robotics and medical equipment.

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.



View attachment 75442



Mars2020 Fact Sheet


View attachment 75443
View attachment 75444

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

The project ended 2021

NASA TechPort

NASA's Technology Portfolio Management System (TechPort) is a single, comprehensive resource for locating detailed information about NASA-funded technologies. Those technologies cover a broad range of areas, such as propulsion, nanotechnology, robotics, and human health. You can find useful...

techport.nasa.gov

 

[Frangipani]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.



View attachment 75442



Mars2020 Fact Sheet


View attachment 75443
View attachment 75444

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

FactFinder was all over this while on the crapper, Bravo.

The posts pre-date this forum.
Or else it's because he scrubbed his account on this one.

It "was" us which were able to make the rover more than 10 times faster or something, it was literally a "crawl" before and they were even thinking of changing the name, to the Mars snail.

Good to see things are still progressing.

We can 100% exclude that the 2020 NASA SBIR proposal which featured Akida has anything to do with NASA’s Mars 2020 mission and the Perseverance Mars Rover, given the fact that it embarked on its voyage to the Red Planet on July 30, 2020 (hence the mission name!) and landed on the Martian surface on February 18, 2021…

Apart from the fact that the timelines just don’t match - Perseverance left Planet Earth 4.5 years ago, the same year the SBIR proposal was published, while BrainChip celebrated Akida being first launched into space on March 4, 2024 (in ANT61’s Brain) - the 2020 SBIR proposal itself clearly indicates it is out of the question that it could have anything to do with the Perseverance Mars Rover’s autonomous navigation system: the research project relates to TRL (Technology Readiness Level) 1-2, which is considered very basic and speculative research. I’ll leave it up to you to figure out what TRL would be required for any mission-critical technology destined for Mars…

Technology Readiness Levels - NASA

Technology Readiness Levels (TRL) are a type of measurement system used to assess the maturity level of a particular technology. Each technology project is

www.nasa.gov

 

[7für7]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

Oh, and I might as well also add that the whole NASA High Performance Spaceflight Computer (HPSC) that I've been so obsessed about and in which I'm convinced our tech will be incorporated into at some point in time, well... the HPSC runs the software that controls the spacecraft's various subsystems, such as navigation, communication, power management, etc.


The HPSC processor which is being built by Microchip and will be utilising SiFive's 'Intelligence' X280 core. NASA has stated previously that initial availability will be sometime in 2024 (which didn't occur obviously, so maybe it will be ready this year) and the chip won't just be for space missions but is also expected to be utilised in applications on Earth such as defense, commercial aviation, robotics and medical equipment.

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.



View attachment 75442



Mars2020 Fact Sheet


View attachment 75443
View attachment 75444

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

I need people like you… those who can think outside the box and take the initiative now and then. If you keep this up, I’ll promote you! And who knows, maybe one day you’ll take over as the leader. Let’s discuss this in a yiakusi.
Major kusanagi!

 

[Frangipani]

The project ended 2021

View attachment 75460

View attachment 75459

NASA TechPort

NASA's Technology Portfolio Management System (TechPort) is a single, comprehensive resource for locating detailed information about NASA-funded technologies. Those technologies cover a broad range of areas, such as propulsion, nanotechnology, robotics, and human health. You can find useful...

techport.nasa.gov

Thank’s for your research, CHIPS, which confirms what I just posted.
The SBIR project started in August 2020, which was AFTER the launch of the Mars 2020 mission on July 30, 2020.

 

[DingoBorat]

We can 100% exclude that the 2020 NASA SBIR proposal which featured Akida has anything to do with NASA’s Mars 2020 mission and the Perseverance Mars Rover, given the fact that it embarked on its voyage to the Red Planet on July 30, 2020 (hence the mission name!) and landed on the Martian surface on February 18, 2021…

View attachment 75445


Apart from the fact that the timelines just don’t match - Perseverance left Planet Earth 4.5 years ago, the same year the SBIR proposal was published, while BrainChip celebrated Akida being first launched into space on March 4, 2024 (in ANT61’s Brain) - the 2020 SBIR proposal itself clearly indicates it is out of the question that it could have anything to do with the Perseverance Mars Rover’s autonomous navigation system: the research project relates to TRL (Technology Readiness Level) 1-2, which is considered very basic and speculative research. I’ll leave it up to you to figure out what TRL would be required for any mission-critical technology destined for Mars…

View attachment 75448

Technology Readiness Levels - NASA

Technology Readiness Levels (TRL) are a type of measurement system used to assess the maturity level of a particular technology. Each technology project is

www.nasa.gov

View attachment 75446
View attachment 75447

I wasn't saying AKIDA was on the Perseverance Rover that went to Mars, Frangipani and I don't think Bravo was saying that either..

It's been tested on subsequent iterations, on Earth though.

 

[manny100]

Hey Gang!

I took some time out from my undercover ops - hiding behind pot plants at CES 2025, to do some reading and stumbled upon this NASA article published yesterday.

From the areas I've highlighted in orange, you can see that NASA's recently updated inventory consists of a few AI use cases describing autonomous navigation for the Perseverance Rover on Mars. I hadn't heard the term "Mars2020 Rover" referenced before and so I searched for it on TSEx and sure enough nothing came up.

What I thought of immediately was the 2020 SBIR, which I have posted below for your convenience, which described how AKIDA was to potentially be utilised to make autonomous rovers travel faster. So it occurred to me that this 2020 SBIR which AKIDA was featured in might be part of the whole "Mars2020 Rover" thingamajig.

I had a quick Google search under "Mars2020 Rover" and I found this NASA Fact Sheet from 2019. The second page states "A new autonomous navigation system will allow the rover to drive faster in challenging terrain", which 100% ties into the goals described in the 2020 SBIR!

Oh, and I might as well also add that the whole NASA High Performance Spaceflight Computer (HPSC) that I've been so obsessed about and in which I'm convinced our tech will be incorporated into at some point in time, well... the HPSC runs the software that controls the spacecraft's various subsystems, such as navigation, communication, power management, etc.


The HPSC processor which is being built by Microchip and will be utilising SiFive's 'Intelligence' X280 core. NASA has stated previously that initial availability will be sometime in 2024 (which didn't occur obviously, so maybe it will be ready this year) and the chip won't just be for space missions but is also expected to be utilised in applications on Earth such as defense, commercial aviation, robotics and medical equipment.

NASA’s AI Use Cases: Advancing Space Exploration with Responsibility​

Kate Halloran​

Jan 07, 2025
Article

Contents​

• AI Across NASA
• Ethical AI: NASA’s Responsible Approach
• Looking Forward: AI’s Expanding Role

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.
NASA’s 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s updated inventory consists of active AI use cases, ranging from AI-driven autonomous space operations, such as navigation for the Perseverance Rover on Mars, to advanced data analysis for scientific discovery.

AI Across NASA​

NASA’s use of AI is diverse and spans several key areas of its missions:

Autonomous Exploration and Navigation​

• AEGIS (Autonomous Exploration for Gathering Increased Science): AI-powered system designed to autonomously collect scientific data during planetary exploration.
• Enhanced AutoNav for Perseverance Rover: Utilizes advanced autonomous navigation for Mars exploration, enabling real-time decision-making.
• MLNav (Machine Learning Navigation): AI-driven navigation tools to enhance movement across challenging terrains.
• Perseverance Rover on Mars – Terrain Relative Navigation: AI technology supporting the rover’s navigation across Mars, improving accuracy in unfamiliar terrain.

Mission Planning and Management​

• ASPEN Mission Planner: AI-assisted tool that helps streamline space mission planning and scheduling, optimizing mission efficiency.
• AWARE (Autonomous Waiting Room Evaluation): AI system that manages operational delays, improving mission scheduling and resource allocation.
• CLASP (Coverage Planning & Scheduling): AI tools for resource allocation and scheduling, ensuring mission activities are executed seamlessly.
• Onboard Planner for Mars2020 Rover: AI system that helps the Perseverance Rover autonomously plan and schedule its tasks during its mission.

Environmental Monitoring and Analysis​

• SensorWeb for Environmental Monitoring: AI-powered system used to monitor environmental factors such as volcanoes, floods, and wildfires on Earth and beyond.
• Volcano SensorWeb: Similar to SensorWeb, but specifically focused on volcanic activity, leveraging AI to enhance monitoring efforts.
• Global, Seasonal Mars Frost Maps: AI-generated maps to study seasonal variations in Mars’ atmosphere and surface conditions.

Data Management and Automation​

• NASA OCIO STI Concept Tagging Service: AI tools that organize and tag NASA’s scientific data, making it easier to access and analyze.
• Purchase Card Management System (PCMS): AI-assisted system for streamlining NASA’s procurement processes and improving financial operations.

Aerospace and Air Traffic Control​

• NextGen Methods for Air Traffic Control: AI tools to optimize air traffic control systems, enhancing efficiency and reducing operational costs.
• NextGen Data Analytics: Letters of Agreement: AI-driven analysis of agreements within air traffic control systems, improving management and operational decision-making.

Space Exploration​

• Mars2020 Rover (Perseverance): AI systems embedded within the Perseverance Rover to support its mission to explore Mars.
• SPOC (Soil Property and Object Classification): AI-based classification system used to analyze soil and environmental features, particularly for Mars exploration.

Ethical AI: NASA’s Responsible Approach​

NASA ensures that all AI applications adhere to Responsible AI (RAI) principles outlined by the White House in its Executive Order 13960. This includes ensuring AI systems are transparent, accountable, and ethical. The agency integrates these principles into every phase of development and deployment, ensuring AI technologies used in space exploration are both safe and effective.

Looking Forward: AI’s Expanding Role​

As AI technologies evolve, NASA’s portfolio of AI use cases will continue to grow. With cutting-edge tools currently in development, the agency is poised to further integrate AI into more aspects of space exploration, from deep space missions to sustainable solutions for planetary exploration.
By maintaining a strong commitment to both technological innovation and ethical responsibility, NASA is not only advancing space exploration but also setting an industry standard for the responsible use of artificial intelligence in scientific and space-related endeavors.



View attachment 75442



Mars2020 Fact Sheet


View attachment 75443
View attachment 75444

https://d2pn8kiwq2w21t.cloudfront.net/documents/mars2020factsheet.pdf

NASA's AI Use Cases: Advancing Space Exploration with Responsibility - NASA

NASA's 2024 AI Use Case inventory highlights the agency’s commitment to integrating artificial intelligence in its space missions and operations. The agency’s

www.nasa.gov

Great post Bravo, it certainly looks like we are preferred by NASA. As expected its taking a fair while.