Airbus Truck Fitted with Airplane Controls to Test Self-taxiing
European aerospace company Airbus has fitted a special truck with airplane controls in an effort to test self-taxiing abilities.
Airbus officials recently introduced the truck in Paris at Europe’s largest technology event, VivaTech. The electric vehicle can drive like a truck, or it can activate the aircraft system controls.
A demonstration showed how the truck works. It uses numerous cameras and sensors to help follow airport direction signals and avoid obstacles as computers guide the vehicle along its path.
In a statement, Airbus described the effort as a three-year research project called Optimate. The goal is to deploy and test the best technologies to help aircraft better recognize their surroundings and current operating conditions.
In addition, the company said detailed data from the experiments will be examined to help develop pilot assistance systems for airport taxiing.
https://www.reuters.com/business/autos-transportation/airbus-fits-electric-truck-with-airliner-cockpit-study-safer-taxiing-2024-05-24/
#LIDAR
European aerospace company Airbus has fitted a special truck with airplane controls in an effort to test self-taxiing abilities.
Airbus officials recently introduced the truck in Paris at Europe’s largest technology event, VivaTech. The electric vehicle can drive like a truck, or it can activate the aircraft system controls.
A demonstration showed how the truck works. It uses numerous cameras and sensors to help follow airport direction signals and avoid obstacles as computers guide the vehicle along its path.
In a statement, Airbus described the effort as a three-year research project called Optimate. The goal is to deploy and test the best technologies to help aircraft better recognize their surroundings and current operating conditions.
In addition, the company said detailed data from the experiments will be examined to help develop pilot assistance systems for airport taxiing.
https://www.reuters.com/business/autos-transportation/airbus-fits-electric-truck-with-airliner-cockpit-study-safer-taxiing-2024-05-24/
#LIDAR
Reuters
Airbus fits electric truck with airliner cockpit to study safer taxiing
Airbus is showing off an unusual vehicle - a truck fitted with basic A350 airliner controls - that it hopes can demonstrate how automated taxiing will make airports safer as concern grows over a spate of jetliners colliding on the ground.
Raspberry Pi is now a public company
Raspberry Pi priced its IPO on the London Stock Exchange on Tuesday morning at £2.80 per share, valuing it at £542 million, or $690 million at today’s exchange rate.
#rPi
Raspberry Pi priced its IPO on the London Stock Exchange on Tuesday morning at £2.80 per share, valuing it at £542 million, or $690 million at today’s exchange rate.
#rPi
TechCrunch
Raspberry Pi is now a public company | TechCrunch
Raspberry Pi priced its IPO on the London Stock Exchange on Tuesday morning at £2.80 per share, valuing it at £542 million, or $690 million.
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CoolMitt Blood Cooling Device Bring Cooling Technology to Paris Games
Craig Heller of Stanford University is an expert in body temperature regulation. Heller told the Reuters news agency, "It can be very hot and miserable (in Paris), as it was in Tokyo during the last Olympics...And that increase in environmental temperature has lots of effects on performance."
Heller co-invented CoolMitt, a device worn like a glove on the hand. The device helps take out heat while cooling the blood. The cooled blood is sent back to the heart and to the athlete's muscles.
Craig Heller of Stanford University is an expert in body temperature regulation. Heller told the Reuters news agency, "It can be very hot and miserable (in Paris), as it was in Tokyo during the last Olympics...And that increase in environmental temperature has lots of effects on performance."
Heller co-invented CoolMitt, a device worn like a glove on the hand. The device helps take out heat while cooling the blood. The cooled blood is sent back to the heart and to the athlete's muscles.
Reuters
To beat the heat, athletes bring cool tech to Paris 2024
As the Paris Olympics fast approaches, summertime temperatures will only continue to get hotter, giving athletes additional challenges as they seek to bring home medals.
Rice Farming Gets an AI Upgrade
Agricultural drones are transforming rice farming in the Mekong River delta, cutting down the amount of pesticides and fertilizers that wash into the ocean in the process.
https://hakaimagazine.com/videos-visuals/rice-farming-gets-an-ai-upgrade/
Agricultural drones are transforming rice farming in the Mekong River delta, cutting down the amount of pesticides and fertilizers that wash into the ocean in the process.
https://hakaimagazine.com/videos-visuals/rice-farming-gets-an-ai-upgrade/
Hakai Magazine
Rice Farming Gets an AI Upgrade | Hakai Magazine
Agricultural drones are transforming rice farming in the Mekong River delta, cutting down the amount of pesticides and fertilizers that wash into the ocean in the process.
Testing Generative AI for Circuit Board Design
Can an AI-powered chatbot help with a task as precise as circuit board design? These LLMs (Large Language Models) are famous for hallucinating details, and missing a *single* important detail can sink a design. Determinism is hard but super important for electronics design!
https://blog.jitx.com/jitx-corporate-blog/testing-generative-ai-for-circuit-board-design
Can an AI-powered chatbot help with a task as precise as circuit board design? These LLMs (Large Language Models) are famous for hallucinating details, and missing a *single* important detail can sink a design. Determinism is hard but super important for electronics design!
https://blog.jitx.com/jitx-corporate-blog/testing-generative-ai-for-circuit-board-design
Jitx
Testing Generative AI for Circuit Board Design
An article studying the use of LLMs fror designing circuit boards
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surveillancewatch.io
Surveillance technology and spyware are being used to target and suppress journalists, dissidents, and human rights advocates everywhere.
Surveillance Watch is an interactive map that documents the hidden connections within the opaque surveillance industry. Founded by privacy advocates, most of whom were personally harmed by surveillance tech, our mission is to shed light on the companies profiting from this exploitation with significant risk to our lives.
By mapping out the intricate web of surveillance companies, their subsidiaries, partners, and financial backers, we hope to expose the enablers fueling this industry's extensive rights violations, ensuring they cannot evade accountability for being complicit in this abuse.
Surveillance Watch is a community-driven initiative, and we rely on submissions from individuals passionate about protecting privacy and human rights. Acknowledging that we are barely scratching the surface of this industry, our interactive map is just the beginning – we are continuously working to expand this resource to include other information and integrate with existing databases that track this data.
Surveillance technology and spyware are being used to target and suppress journalists, dissidents, and human rights advocates everywhere.
Surveillance Watch is an interactive map that documents the hidden connections within the opaque surveillance industry. Founded by privacy advocates, most of whom were personally harmed by surveillance tech, our mission is to shed light on the companies profiting from this exploitation with significant risk to our lives.
By mapping out the intricate web of surveillance companies, their subsidiaries, partners, and financial backers, we hope to expose the enablers fueling this industry's extensive rights violations, ensuring they cannot evade accountability for being complicit in this abuse.
Surveillance Watch is a community-driven initiative, and we rely on submissions from individuals passionate about protecting privacy and human rights. Acknowledging that we are barely scratching the surface of this industry, our interactive map is just the beginning – we are continuously working to expand this resource to include other information and integrate with existing databases that track this data.
www.surveillancewatch.io
Surveillance Watch: They Know Who You Are
Surveillance Watch is an interactive map revealing the intricate connections between surveillance companies, their funding sources and affiliations.
NASA Launches New Satellite to Study Oceans, Atmosphere
The American space agency NASA has launched a new satellite designed to closely study the world’s oceans and atmosphere.
NASA launched the PACE satellite on February 8. A SpaceX Falcon 9 rocket carried PACE into orbit from Kennedy Space Center in Florida. NASA confirmed the launch and reported ground controllers had successfully established contact with the satellite.
PACE stands for Plankton, Aerosol, Cloud, Ocean Ecosystem. The satellite will spend at least three years studying the environment from an orbit 676 kilometers above the Earth’s surface. NASA officials say PACE will map the entire world each day with two science instruments. A third instrument will collect monthly measurements. Scientists should start getting their first data within one or two months.
Jeremy Werdell is the Project Scientist for the PACE project, or mission. He told The Associated Press he sees the effort providing humans “an unprecedented view of our home planet."
Werdell noted a major goal of the observations is to help scientists improve their ability to predict hurricanes and other severe weather events. He said the instruments can provide detailed data on temperature-related changes happening across the world. The satellite data might help scientists better predict when harmful algae blooms will happen.
NASA says PACE will also study aerosols, or particles in the air. Karen St. Germain is NASA’s director of Earth science. She told reporters before PACE’s launch that the study of aerosols is important because they can affect clouds. Aerosols can affect the density of clouds, as well as when and how much precipitation the clouds might release.
St. Germain noted existing satellites are not equipped to collect detailed data on aerosols. She said PACE will help NASA learn more about how aerosols affect clouds and climate over long periods. The new data is expected to give scientists “another dimension” of data on how aerosols affect oceans and the atmosphere.
St. Germain added, “And then, of course, there is a relationship between the phytoplankton and the aerosols.” Phytoplankton are very small plants that float near the surface of water. They serve as a source of food for many sea creatures. NASA says phytoplankton “provide food to all sorts of animals ranging from shellfish to finfish to whales.”
NASA says PACE’s instruments will aim to measure changes in phytoplankton. The satellite will aim to collect data on aerosols that attach to phytoplankton. These studies will be important in identifying any changes in phytoplankton from interactions with aerosols which could affect the ocean and life in it.
NASA has already launched a series of Earth-observing satellites and instruments into orbit. But the agency believes PACE will be able to collect more detailed data on how different aerosols and pollutants get into the oceans and the atmosphere.
Project Scientist Werdell noted that current Earth-observing satellites can only see in seven or eight different colors. But he said Pace will see in 200 colors, permitting scientists to better identify different kinds of algae in the sea and particles in the air.
News reports say the mission will cost about $950 million.
The PACE mission follows the launch in December 2022 of NASA’s SWOT satellite. The SWOT mission measures sea levels and changes in bodies of water over time. SWOT is a cooperative effort between NASA and France’s space agency.
NASA is cooperating with India on another Earth-observing satellite set to launch this year. That spacecraft, called NISAR, will use radar instruments to measure the effects of rising temperatures on glaciers and other melting, icy surfaces.
The American space agency NASA has launched a new satellite designed to closely study the world’s oceans and atmosphere.
NASA launched the PACE satellite on February 8. A SpaceX Falcon 9 rocket carried PACE into orbit from Kennedy Space Center in Florida. NASA confirmed the launch and reported ground controllers had successfully established contact with the satellite.
PACE stands for Plankton, Aerosol, Cloud, Ocean Ecosystem. The satellite will spend at least three years studying the environment from an orbit 676 kilometers above the Earth’s surface. NASA officials say PACE will map the entire world each day with two science instruments. A third instrument will collect monthly measurements. Scientists should start getting their first data within one or two months.
Jeremy Werdell is the Project Scientist for the PACE project, or mission. He told The Associated Press he sees the effort providing humans “an unprecedented view of our home planet."
Werdell noted a major goal of the observations is to help scientists improve their ability to predict hurricanes and other severe weather events. He said the instruments can provide detailed data on temperature-related changes happening across the world. The satellite data might help scientists better predict when harmful algae blooms will happen.
NASA says PACE will also study aerosols, or particles in the air. Karen St. Germain is NASA’s director of Earth science. She told reporters before PACE’s launch that the study of aerosols is important because they can affect clouds. Aerosols can affect the density of clouds, as well as when and how much precipitation the clouds might release.
St. Germain noted existing satellites are not equipped to collect detailed data on aerosols. She said PACE will help NASA learn more about how aerosols affect clouds and climate over long periods. The new data is expected to give scientists “another dimension” of data on how aerosols affect oceans and the atmosphere.
St. Germain added, “And then, of course, there is a relationship between the phytoplankton and the aerosols.” Phytoplankton are very small plants that float near the surface of water. They serve as a source of food for many sea creatures. NASA says phytoplankton “provide food to all sorts of animals ranging from shellfish to finfish to whales.”
NASA says PACE’s instruments will aim to measure changes in phytoplankton. The satellite will aim to collect data on aerosols that attach to phytoplankton. These studies will be important in identifying any changes in phytoplankton from interactions with aerosols which could affect the ocean and life in it.
NASA has already launched a series of Earth-observing satellites and instruments into orbit. But the agency believes PACE will be able to collect more detailed data on how different aerosols and pollutants get into the oceans and the atmosphere.
Project Scientist Werdell noted that current Earth-observing satellites can only see in seven or eight different colors. But he said Pace will see in 200 colors, permitting scientists to better identify different kinds of algae in the sea and particles in the air.
News reports say the mission will cost about $950 million.
The PACE mission follows the launch in December 2022 of NASA’s SWOT satellite. The SWOT mission measures sea levels and changes in bodies of water over time. SWOT is a cooperative effort between NASA and France’s space agency.
NASA is cooperating with India on another Earth-observing satellite set to launch this year. That spacecraft, called NISAR, will use radar instruments to measure the effects of rising temperatures on glaciers and other melting, icy surfaces.
NASA
NASA-Designed Greenhouse Gas-Detection Instrument Launches - NASA
Developed by the agency’s Jet Propulsion Laboratory, the imaging spectrometer will provide actionable data to help reduce emissions that contribute to global
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Build Your Own Chemical Reactor on a Raspberry Pi with Microlab!
The MicroLab is an open-source, DIY, automated controlled lab reactor (CLR) that people can assemble with parts available online. We hope this will do for chemistry what the 3D printer did for manufacturing: provide a DIY, hackable, low-cost method to design and produce certain needful things that otherwise would be out of reach.
#rPi
The MicroLab is an open-source, DIY, automated controlled lab reactor (CLR) that people can assemble with parts available online. We hope this will do for chemistry what the 3D printer did for manufacturing: provide a DIY, hackable, low-cost method to design and produce certain needful things that otherwise would be out of reach.
#rPi
GitHub
GitHub - FourThievesVinegar/solderless-microlab
Contribute to FourThievesVinegar/solderless-microlab development by creating an account on GitHub.
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AppleWatchAmmeter
Turn your Apple Watch or any watch with an accessible magnetometer into an ammeter to measure DC currents.
Turn your Apple Watch or any watch with an accessible magnetometer into an ammeter to measure DC currents.
RaspberryPi WebRTC
Open Source security camera on Raspberry Pi
Native WebRTC uses v4l2 hardware h264 and software openh264 encoder for live streaming on Raspberry Pi.
#rPi
Open Source security camera on Raspberry Pi
Native WebRTC uses v4l2 hardware h264 and software openh264 encoder for live streaming on Raspberry Pi.
#rPi
GitHub
GitHub - TzuHuanTai/RaspberryPi-WebRTC: Native WebRTC low-latency P2P video streaming on Raspberry Pi and NVIDIA Jetson with both…
Native WebRTC low-latency P2P video streaming on Raspberry Pi and NVIDIA Jetson with both hardware and software encoding support. - TzuHuanTai/RaspberryPi-WebRTC
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Glass Antenna Turns Windows Into 5G Base Stations
Compact, inconspicuous antennas could increase cell coverage transparently
Electronics inconspicuously attached to transparent conductive layers enable a window to double as a 5G cellular antenna.
https://spectrum.ieee.org/5g-antenna-transparent-window
Compact, inconspicuous antennas could increase cell coverage transparently
Electronics inconspicuously attached to transparent conductive layers enable a window to double as a 5G cellular antenna.
https://spectrum.ieee.org/5g-antenna-transparent-window
iPhone 16 Pro Max Repair Manual
https://support.apple.com/en-us/120819
#R2R #RTR #RightToRepair #Right_to_Repair
https://support.apple.com/en-us/120819
#R2R #RTR #RightToRepair #Right_to_Repair
Hacking Kia: Remotely Controlling Cars With Just a License Plate
HTTP Request to Unlock Car Door on the "owners.kia.com" website
https://samcurry.net/hacking-kia
HTTP Request to Unlock Car Door on the "owners.kia.com" website
POST /apps/services/owners/apigwServlet.html HTTP/2
Host: owners.kia.com
Httpmethod: GET
Apiurl: /door/unlock
Servicetype: postLoginCustomer
Cookie: JSESSIONID=SESSION_TOKEN;
https://samcurry.net/hacking-kia
samcurry.net
Hacking Kia: Remotely Controlling Cars With Just a License Plate
On June 11th, 2024, we discovered a set of vulnerabilities in Kia vehicles that allowed remote control over key functions using only a license plate. These attacks could be executed remotely on any hardware-equipped vehicle in about 30 seconds, regardless…
Hands-on With New IPhone's Electrically-Released Adhesive
https://www.ifixit.com/News/100352/we-hot-wired-the-iphone-16
https://www.ifixit.com/News/100352/we-hot-wired-the-iphone-16
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Wi-Fi Goes Long Range on New WiLo Approach
The new technique could underpin agricultural sensor networks and smart cities
Researchers have developed a hybrid technology that would combine Wi-Fi with the Long Range (LoRa) networking protocol, yielding a new long-distance wireless concept called WiLo. The research team has designed their proposed WiLo tech to be used on existing Wi-Fi and LoRa hardware.
The advance may find applications in Internet of Things (IoT) technologies–such as networks of long-range sensors used in agriculture or smart cities.
Demin Gao, a professor in the College of Information Science and Technology at Nanjing Forestry University in China, notes that Wi-Fi has limitations today in its range and its high power consumption. By contrast, LoRa is based on low power requirements that yield long-range communication capabilities and is often used for IoT applications.
In WiLo, the two communications protocols have been combined to maximize advantages of each one, without the need for additional tech to bridge the two systems. “This reduces costs, complexity, and potential points of failure, making IoT deployments more efficient and scalable,” Gao says.
The researchers—hailing from universities in Hong Kong, mainland China, South Korea, the United States, and the United Kingdom, as well as Intel employees in Germany—conducted their WiLo experiments using an off-the-shelf SX1280 LoRa transceiver produced by Semtech. And while the SX1280’s 2.4 GHz communications band is shared with Wi-Fi (and a host of other standards and technologies), Wi-Fi and LoRa signals are not compatible.
So the researchers developed an algorithm to manipulate the frequency of Wi-Fi’s data transmission signals to match the signals that the LoRa device uses to communicate with other devices. In technical terms, they manipulated Wi-Fi’s data multiplexing standard (called OFDM) to emulate the longer-ranged chirp signals used in LoRa’s chirp-spreading standard (called CSS).
“This enables the use of standard Wi-Fi devices to communicate over long distances using LoRa without additional hardware,” says Gao.
The team tested their new WiLo approach both indoors—in a lab and hallway—and outdoors, over distances up to 500 meters. The researchers reported WiLo achieved a 96 percent successful transmission rate.
Gao says one benefit of WiLo concerns its ability to run on existing, off-the-shelf hardware. As a result, it would not require substantial deployment costs or complexity. On the other hand, one of WiLo’s limitations is the additional power consumption required for Wi-Fi devices to simultaneously handle communication and signal emulation—a problem Gao and his colleagues aim to address in future work.
Moving forward, Gao says, “To commercialize WiLo, the next steps would involve further optimization of the system to improve energy efficiency, data rates, and robustness against interference. This may require additional software development and testing across various IoT environments.”
Ensuring that the system complies with industry standards and integrating security measures for cross-technology communication are also necessary steps, Gao adds.
The team published their research last month in the journal IEEE Transactions on Communications.
The new technique could underpin agricultural sensor networks and smart cities
Researchers have developed a hybrid technology that would combine Wi-Fi with the Long Range (LoRa) networking protocol, yielding a new long-distance wireless concept called WiLo. The research team has designed their proposed WiLo tech to be used on existing Wi-Fi and LoRa hardware.
The advance may find applications in Internet of Things (IoT) technologies–such as networks of long-range sensors used in agriculture or smart cities.
Demin Gao, a professor in the College of Information Science and Technology at Nanjing Forestry University in China, notes that Wi-Fi has limitations today in its range and its high power consumption. By contrast, LoRa is based on low power requirements that yield long-range communication capabilities and is often used for IoT applications.
In WiLo, the two communications protocols have been combined to maximize advantages of each one, without the need for additional tech to bridge the two systems. “This reduces costs, complexity, and potential points of failure, making IoT deployments more efficient and scalable,” Gao says.
The researchers—hailing from universities in Hong Kong, mainland China, South Korea, the United States, and the United Kingdom, as well as Intel employees in Germany—conducted their WiLo experiments using an off-the-shelf SX1280 LoRa transceiver produced by Semtech. And while the SX1280’s 2.4 GHz communications band is shared with Wi-Fi (and a host of other standards and technologies), Wi-Fi and LoRa signals are not compatible.
So the researchers developed an algorithm to manipulate the frequency of Wi-Fi’s data transmission signals to match the signals that the LoRa device uses to communicate with other devices. In technical terms, they manipulated Wi-Fi’s data multiplexing standard (called OFDM) to emulate the longer-ranged chirp signals used in LoRa’s chirp-spreading standard (called CSS).
“This enables the use of standard Wi-Fi devices to communicate over long distances using LoRa without additional hardware,” says Gao.
The team tested their new WiLo approach both indoors—in a lab and hallway—and outdoors, over distances up to 500 meters. The researchers reported WiLo achieved a 96 percent successful transmission rate.
Gao says one benefit of WiLo concerns its ability to run on existing, off-the-shelf hardware. As a result, it would not require substantial deployment costs or complexity. On the other hand, one of WiLo’s limitations is the additional power consumption required for Wi-Fi devices to simultaneously handle communication and signal emulation—a problem Gao and his colleagues aim to address in future work.
Moving forward, Gao says, “To commercialize WiLo, the next steps would involve further optimization of the system to improve energy efficiency, data rates, and robustness against interference. This may require additional software development and testing across various IoT environments.”
Ensuring that the system complies with industry standards and integrating security measures for cross-technology communication are also necessary steps, Gao adds.
The team published their research last month in the journal IEEE Transactions on Communications.
IEEE Spectrum
Wi-Fi Goes Long Range on New WiLo Approach
The new technique could underpin agricultural sensor networks and smart cities
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Hack a vacuum robot to look through its camera and spy on people!
https://www.abc.net.au/news/2024-10-04/robot-vacuum-hacked-photos-camera-audio/104414020
https://www.abc.net.au/news/2024-10-04/robot-vacuum-hacked-photos-camera-audio/104414020
www.abc.net.au
The world's largest home robotics company has a problem – its vacuum cleaners can be hacked from afar
Without even entering the building, we were able to silently peer through the camera on a Deebot device made by Chinese giant Ecovacs.
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kv4p HT
Turn your Android phone into a modern ham radio transceiver
Free open source software & hardware
https://github.com/VanceVagell/kv4p-ht
Turn your Android phone into a modern ham radio transceiver
Free open source software & hardware
https://github.com/VanceVagell/kv4p-ht
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