Access Control & Identity Management
Access Control & Identity Management
Hailo AI Processor for Access Control
AI-Powered
Access Control
The use of smart cameras to grant or prevent access to places such as parking lots, office buildings, commercial and even residential properties is extremely common. Leveraging AI algorithms to analyze the data in real-time to identify and track people or vehicles and compare their identity vs. a database of approved entities is becoming the new standard.
Implementing applications based on neural network models for facial recognition or license plate recognition greatly increases the accuracy of the access control process, preventing delays, congestion, and frustration, while reducing error rate and the need for human intervention.
AI capabilities on the edge, either in the form of a smart camera or in the perimeter management system, improve both safety level and customer experience, by preventing unauthorized entities to enter the perimeter, or by creating a smooth flow of people and vehicles in and out of the area, by reducing the time required to check-in and check-out, and by eliminating the need for manual data entry.
Access Control
on the Edge
Running AI access control tasks locally at the edge, closer to where the data is generated or consumed, significantly reduces the streaming bandwidth resulting in substantial reduction of operating cost.
Furthermore, running these applications on the edge eliminates the dependency on network connectivity, allowing these systems to be deployed in remote locations such as army bases or underground facilities.
Finally, running AI access control on the edge means higher privacy as only metadata and descriptions are collected in the cloud, while personal information is processed at the edge.
Benefits
Enhanced Detection Accuracy
To meet the high accuracy requirements, with minimum error rate,
but with high resolution cameras, a lot of compute power
is needed. Hailo enables high AI performance to run
state-of-the-art access control processing pipelines
at high accuracy, ensuring a more reliable security system.
The higher compute power enables using more advanced models
which allow better granularity of detection as well as detection
of multiple vehicle classes and scenarios
Flexibility & Upgradability
The comprehensive software suite provided by Hailo enables
constant updating and upgrading of the access control models
to support new scenarios, data types and usage models.
For example, identifying new types of license plates (scooters,
e-bikes, etc.) or new payment models such as discount for electric
vehicles, etc.
Vehicle Access Control
AI-Powered
Vehicle Access
Control with LPR,
Make & Model Detection
Vehicle Access Control refers to the technology and systems used to regulate and manage the entry or exit of vehicles in a specific area or facility. One important aspect of Vehicle Access Control is License Plate Recognition (LPR) or Automatic Number Plate Recognition (ANPR), which involves a pipeline of tasks for the automatic detection of vehicles, detection of the license plate within the vehicle and recognition or reading and interpretation of vehicle license plates characters.
LPR systems use cameras and image processing algorithms to detect the vehicle in the frame, identify its license plate, extract the alphanumeric characters, and compare them against a database for identification or verification purposes. The goal is to allow authorized vehicles to enter while restricting access to unauthorized or suspicious vehicles, or to manage compliance and billing of parked vehicles.
By leveraging AI, LPR systems can handle challenging conditions, such as high speed, multiple vehicles concurrently, low lighting, varying angles, or occlusions, and still accurately detect and read license plates. AI-powered algorithms can adapt to different license plate designs, including various languages, fonts, colors, and background patterns. The high AI capacity of the Hailo processors enables more advanced LPR models which improve the accuracy and reduce the error rate.
Furthermore, the additional AI power can enable advanced capabilities in vehicle access control systems, such as model, make and color recognition (MMCR). This information can be used for further identification or verification purposes and to enforce access control policies more effectively and with greater accuracy.
Higher Accuracy
with Hailo
Hailo’s high-performance AI processors enable more complex models for LPR and MMCR, which reduce the error rate and increase the reliability of the access control system, for increased safety and lower cost on manual labor.
Human Access Control
AI-Powered
Facial Recognition
Human access control, refers to the use of biometric technology to authenticate and grant or deny access to individuals based on their facial features. It involves capturing an image or video of a person’s face, extracting unique facial characteristics, and comparing them against a database of pre-registered faces to determine identity.
AI algorithms were continuously proven to be very effective in performing Facial Recognition tasks. AI-powered facial recognition systems can handle various challenging scenarios, such as changes in lighting conditions, facial expressions, or aging appearances. The algorithms can adapt and generalize to different individuals, including those with different skin tones, facial hair, or accessories. Additionally, AI can improve the result of liveliness checks by enhancing the system’s ability to distinguish between real faces and spoof attempts, such as a photograph or a mask, by analyzing depth, texture, and other subtle cues.
Hailo enables AI access control to be done on the edge of the network, on the camera itself, or in the NVR, for greater privacy and data protection, as people’s private information is processed on the edge and only metadata is transmitted to the cloud.
https://hailo.ai/applications/security/access-control/#Human_Access_Control
專業文章
應用案例
-
利用三泰科技 OCuLink 擴充卡 提升薄型桌上型電腦 GPU 的效能
-
Hailo8 應用 – 人臉辨識
-
ReID 與 Object Detection 的差異與 Hailo 應用實作
-
SUNIX CAN FD 通訊卡在智慧製造場域的應用
-
SUNIX CAN FD通訊卡在軌道交通場域的應用
-
SUNIX CAN FD 通訊卡在 MRI(磁振造影)系統的應用
-
外接儲存系統應用:以三泰科技 OCuLink 擴充卡為核心的高效架構
-
UPB2430 USB4 Daisy Chain 應用:解鎖高效能串接新體驗
-
SUNIX CAN FD 通訊卡在智慧移動機器人(AGV/AMR)中的應用
-
三泰科技 CAN FD 卡在模組化儲能系統中的應用
-
SUNIX CAN FD卡在汽車維修站診斷系統的應用
-
In-Depth Analysis of the SAE J1939 Breaking Down the PNG and SPN
-
CAN FD 在汽車維修站診斷系統的應用與效益提升
-
CAN FD 在電動車電池管理系統中的應用
-
智慧零售中的 AI 應用
-
生成式 AI 在智慧座艙 / 車用資訊娛樂系統 (IVI) 中的應用
-
Generative AI for Smart Cockpit / IVI
-
AI In Smart Retail
-
Hailo AI Processor for Personal Computers
-
Access Control & Identity Management
-
Intelligent Transportation Systems
-
Perimeter Protection
-
Hailo AI Processor for AOI
-
Hailo AI Processor for ADAS & AD
-
Controller Area Network Extra Long (CAN XL) by Cia
-
CAN FD - The basic idea by Cia
-
CAN FD: Anything But Automotive Only by EE Times
Access Control & Identity Management
Access Control & Identity Management
Hailo AI Processor for Access Control
AI-Powered
Access Control
The use of smart cameras to grant or prevent access to places such as parking lots, office buildings, commercial and even residential properties is extremely common. Leveraging AI algorithms to analyze the data in real-time to identify and track people or vehicles and compare their identity vs. a database of approved entities is becoming the new standard.
Implementing applications based on neural network models for facial recognition or license plate recognition greatly increases the accuracy of the access control process, preventing delays, congestion, and frustration, while reducing error rate and the need for human intervention.
AI capabilities on the edge, either in the form of a smart camera or in the perimeter management system, improve both safety level and customer experience, by preventing unauthorized entities to enter the perimeter, or by creating a smooth flow of people and vehicles in and out of the area, by reducing the time required to check-in and check-out, and by eliminating the need for manual data entry.
Access Control
on the Edge
Running AI access control tasks locally at the edge, closer to where the data is generated or consumed, significantly reduces the streaming bandwidth resulting in substantial reduction of operating cost.
Furthermore, running these applications on the edge eliminates the dependency on network connectivity, allowing these systems to be deployed in remote locations such as army bases or underground facilities.
Finally, running AI access control on the edge means higher privacy as only metadata and descriptions are collected in the cloud, while personal information is processed at the edge.
Benefits
Enhanced Detection Accuracy
To meet the high accuracy requirements, with minimum error rate,
but with high resolution cameras, a lot of compute power
is needed. Hailo enables high AI performance to run
state-of-the-art access control processing pipelines
at high accuracy, ensuring a more reliable security system.
The higher compute power enables using more advanced models
which allow better granularity of detection as well as detection
of multiple vehicle classes and scenarios
Flexibility & Upgradability
The comprehensive software suite provided by Hailo enables
constant updating and upgrading of the access control models
to support new scenarios, data types and usage models.
For example, identifying new types of license plates (scooters,
e-bikes, etc.) or new payment models such as discount for electric
vehicles, etc.
Vehicle Access Control
AI-Powered
Vehicle Access
Control with LPR,
Make & Model Detection
Vehicle Access Control refers to the technology and systems used to regulate and manage the entry or exit of vehicles in a specific area or facility. One important aspect of Vehicle Access Control is License Plate Recognition (LPR) or Automatic Number Plate Recognition (ANPR), which involves a pipeline of tasks for the automatic detection of vehicles, detection of the license plate within the vehicle and recognition or reading and interpretation of vehicle license plates characters.
LPR systems use cameras and image processing algorithms to detect the vehicle in the frame, identify its license plate, extract the alphanumeric characters, and compare them against a database for identification or verification purposes. The goal is to allow authorized vehicles to enter while restricting access to unauthorized or suspicious vehicles, or to manage compliance and billing of parked vehicles.
By leveraging AI, LPR systems can handle challenging conditions, such as high speed, multiple vehicles concurrently, low lighting, varying angles, or occlusions, and still accurately detect and read license plates. AI-powered algorithms can adapt to different license plate designs, including various languages, fonts, colors, and background patterns. The high AI capacity of the Hailo processors enables more advanced LPR models which improve the accuracy and reduce the error rate.
Furthermore, the additional AI power can enable advanced capabilities in vehicle access control systems, such as model, make and color recognition (MMCR). This information can be used for further identification or verification purposes and to enforce access control policies more effectively and with greater accuracy.
Higher Accuracy
with Hailo
Hailo’s high-performance AI processors enable more complex models for LPR and MMCR, which reduce the error rate and increase the reliability of the access control system, for increased safety and lower cost on manual labor.Human Access Control
AI-Powered
Facial Recognition
Human access control, refers to the use of biometric technology to authenticate and grant or deny access to individuals based on their facial features. It involves capturing an image or video of a person’s face, extracting unique facial characteristics, and comparing them against a database of pre-registered faces to determine identity.
AI algorithms were continuously proven to be very effective in performing Facial Recognition tasks. AI-powered facial recognition systems can handle various challenging scenarios, such as changes in lighting conditions, facial expressions, or aging appearances. The algorithms can adapt and generalize to different individuals, including those with different skin tones, facial hair, or accessories. Additionally, AI can improve the result of liveliness checks by enhancing the system’s ability to distinguish between real faces and spoof attempts, such as a photograph or a mask, by analyzing depth, texture, and other subtle cues.
Hailo enables AI access control to be done on the edge of the network, on the camera itself, or in the NVR, for greater privacy and data protection, as people’s private information is processed on the edge and only metadata is transmitted to the cloud.
https://hailo.ai/applications/security/access-control/#Human_Access_Control
專業文章
應用案例
-
利用三泰科技 OCuLink 擴充卡 提升薄型桌上型電腦 GPU 的效能
-
Hailo8 應用 – 人臉辨識
-
ReID 與 Object Detection 的差異與 Hailo 應用實作
-
SUNIX CAN FD 通訊卡在智慧製造場域的應用
-
SUNIX CAN FD通訊卡在軌道交通場域的應用
-
SUNIX CAN FD 通訊卡在 MRI(磁振造影)系統的應用
-
外接儲存系統應用:以三泰科技 OCuLink 擴充卡為核心的高效架構
-
UPB2430 USB4 Daisy Chain 應用:解鎖高效能串接新體驗
-
SUNIX CAN FD 通訊卡在智慧移動機器人(AGV/AMR)中的應用
-
三泰科技 CAN FD 卡在模組化儲能系統中的應用
-
SUNIX CAN FD卡在汽車維修站診斷系統的應用
-
In-Depth Analysis of the SAE J1939 Breaking Down the PNG and SPN
-
CAN FD 在汽車維修站診斷系統的應用與效益提升
-
CAN FD 在電動車電池管理系統中的應用
-
智慧零售中的 AI 應用
-
生成式 AI 在智慧座艙 / 車用資訊娛樂系統 (IVI) 中的應用
-
Generative AI for Smart Cockpit / IVI
-
AI In Smart Retail
-
Hailo AI Processor for Personal Computers
-
Access Control & Identity Management
-
Intelligent Transportation Systems
-
Perimeter Protection
-
Hailo AI Processor for AOI
-
Hailo AI Processor for ADAS & AD
-
Controller Area Network Extra Long (CAN XL) by Cia
-
CAN FD - The basic idea by Cia
-
CAN FD: Anything But Automotive Only by EE Times
Access Control & Identity Management
Access Control & Identity Management
Hailo AI Processor for Access Control
AI-Powered
Access Control
The use of smart cameras to grant or prevent access to places such as parking lots, office buildings, commercial and even residential properties is extremely common. Leveraging AI algorithms to analyze the data in real-time to identify and track people or vehicles and compare their identity vs. a database of approved entities is becoming the new standard.
Implementing applications based on neural network models for facial recognition or license plate recognition greatly increases the accuracy of the access control process, preventing delays, congestion, and frustration, while reducing error rate and the need for human intervention.
AI capabilities on the edge, either in the form of a smart camera or in the perimeter management system, improve both safety level and customer experience, by preventing unauthorized entities to enter the perimeter, or by creating a smooth flow of people and vehicles in and out of the area, by reducing the time required to check-in and check-out, and by eliminating the need for manual data entry.
Access Control
on the Edge
Running AI access control tasks locally at the edge, closer to where the data is generated or consumed, significantly reduces the streaming bandwidth resulting in substantial reduction of operating cost.
Furthermore, running these applications on the edge eliminates the dependency on network connectivity, allowing these systems to be deployed in remote locations such as army bases or underground facilities.
Finally, running AI access control on the edge means higher privacy as only metadata and descriptions are collected in the cloud, while personal information is processed at the edge.
Benefits
Enhanced Detection Accuracy
To meet the high accuracy requirements, with minimum error rate,
but with high resolution cameras, a lot of compute power
is needed. Hailo enables high AI performance to run
state-of-the-art access control processing pipelines
at high accuracy, ensuring a more reliable security system.
The higher compute power enables using more advanced models
which allow better granularity of detection as well as detection
of multiple vehicle classes and scenarios
Flexibility & Upgradability
The comprehensive software suite provided by Hailo enables
constant updating and upgrading of the access control models
to support new scenarios, data types and usage models.
For example, identifying new types of license plates (scooters,
e-bikes, etc.) or new payment models such as discount for electric
vehicles, etc.
Vehicle Access Control
AI-Powered
Vehicle Access
Control with LPR,
Make & Model Detection
Vehicle Access Control refers to the technology and systems used to regulate and manage the entry or exit of vehicles in a specific area or facility. One important aspect of Vehicle Access Control is License Plate Recognition (LPR) or Automatic Number Plate Recognition (ANPR), which involves a pipeline of tasks for the automatic detection of vehicles, detection of the license plate within the vehicle and recognition or reading and interpretation of vehicle license plates characters.
LPR systems use cameras and image processing algorithms to detect the vehicle in the frame, identify its license plate, extract the alphanumeric characters, and compare them against a database for identification or verification purposes. The goal is to allow authorized vehicles to enter while restricting access to unauthorized or suspicious vehicles, or to manage compliance and billing of parked vehicles.
By leveraging AI, LPR systems can handle challenging conditions, such as high speed, multiple vehicles concurrently, low lighting, varying angles, or occlusions, and still accurately detect and read license plates. AI-powered algorithms can adapt to different license plate designs, including various languages, fonts, colors, and background patterns. The high AI capacity of the Hailo processors enables more advanced LPR models which improve the accuracy and reduce the error rate.
Furthermore, the additional AI power can enable advanced capabilities in vehicle access control systems, such as model, make and color recognition (MMCR). This information can be used for further identification or verification purposes and to enforce access control policies more effectively and with greater accuracy.
Higher Accuracy
with Hailo
Hailo’s high-performance AI processors enable more complex models for LPR and MMCR, which reduce the error rate and increase the reliability of the access control system, for increased safety and lower cost on manual labor.Human Access Control
AI-Powered
Facial Recognition
Human access control, refers to the use of biometric technology to authenticate and grant or deny access to individuals based on their facial features. It involves capturing an image or video of a person’s face, extracting unique facial characteristics, and comparing them against a database of pre-registered faces to determine identity.
AI algorithms were continuously proven to be very effective in performing Facial Recognition tasks. AI-powered facial recognition systems can handle various challenging scenarios, such as changes in lighting conditions, facial expressions, or aging appearances. The algorithms can adapt and generalize to different individuals, including those with different skin tones, facial hair, or accessories. Additionally, AI can improve the result of liveliness checks by enhancing the system’s ability to distinguish between real faces and spoof attempts, such as a photograph or a mask, by analyzing depth, texture, and other subtle cues.
Hailo enables AI access control to be done on the edge of the network, on the camera itself, or in the NVR, for greater privacy and data protection, as people’s private information is processed on the edge and only metadata is transmitted to the cloud.
https://hailo.ai/applications/security/access-control/#Human_Access_Control
專業文章
應用案例
-
利用三泰科技 OCuLink 擴充卡 提升薄型桌上型電腦 GPU 的效能
-
Hailo8 應用 – 人臉辨識
-
ReID 與 Object Detection 的差異與 Hailo 應用實作
-
SUNIX CAN FD 通訊卡在智慧製造場域的應用
-
SUNIX CAN FD通訊卡在軌道交通場域的應用
-
SUNIX CAN FD 通訊卡在 MRI(磁振造影)系統的應用
-
外接儲存系統應用:以三泰科技 OCuLink 擴充卡為核心的高效架構
-
UPB2430 USB4 Daisy Chain 應用:解鎖高效能串接新體驗
-
SUNIX CAN FD 通訊卡在智慧移動機器人(AGV/AMR)中的應用
-
三泰科技 CAN FD 卡在模組化儲能系統中的應用
-
SUNIX CAN FD卡在汽車維修站診斷系統的應用
-
In-Depth Analysis of the SAE J1939 Breaking Down the PNG and SPN
-
CAN FD 在汽車維修站診斷系統的應用與效益提升
-
CAN FD 在電動車電池管理系統中的應用
-
智慧零售中的 AI 應用
-
生成式 AI 在智慧座艙 / 車用資訊娛樂系統 (IVI) 中的應用
-
Generative AI for Smart Cockpit / IVI
-
AI In Smart Retail
-
Hailo AI Processor for Personal Computers
-
Access Control & Identity Management
-
Intelligent Transportation Systems
-
Perimeter Protection
-
Hailo AI Processor for AOI
-
Hailo AI Processor for ADAS & AD
-
Controller Area Network Extra Long (CAN XL) by Cia
-
CAN FD - The basic idea by Cia
-
CAN FD: Anything But Automotive Only by EE Times
Access Control & Identity Management
Access Control & Identity Management
Hailo AI Processor for Access Control
AI-Powered
Access Control
The use of smart cameras to grant or prevent access to places such as parking lots, office buildings, commercial and even residential properties is extremely common. Leveraging AI algorithms to analyze the data in real-time to identify and track people or vehicles and compare their identity vs. a database of approved entities is becoming the new standard.
Implementing applications based on neural network models for facial recognition or license plate recognition greatly increases the accuracy of the access control process, preventing delays, congestion, and frustration, while reducing error rate and the need for human intervention.
AI capabilities on the edge, either in the form of a smart camera or in the perimeter management system, improve both safety level and customer experience, by preventing unauthorized entities to enter the perimeter, or by creating a smooth flow of people and vehicles in and out of the area, by reducing the time required to check-in and check-out, and by eliminating the need for manual data entry.
Access Control
on the Edge
Running AI access control tasks locally at the edge, closer to where the data is generated or consumed, significantly reduces the streaming bandwidth resulting in substantial reduction of operating cost.
Furthermore, running these applications on the edge eliminates the dependency on network connectivity, allowing these systems to be deployed in remote locations such as army bases or underground facilities.
Finally, running AI access control on the edge means higher privacy as only metadata and descriptions are collected in the cloud, while personal information is processed at the edge.
Benefits
Enhanced Detection Accuracy
To meet the high accuracy requirements, with minimum error rate,
but with high resolution cameras, a lot of compute power
is needed. Hailo enables high AI performance to run
state-of-the-art access control processing pipelines
at high accuracy, ensuring a more reliable security system.
The higher compute power enables using more advanced models
which allow better granularity of detection as well as detection
of multiple vehicle classes and scenarios
Flexibility & Upgradability
The comprehensive software suite provided by Hailo enables
constant updating and upgrading of the access control models
to support new scenarios, data types and usage models.
For example, identifying new types of license plates (scooters,
e-bikes, etc.) or new payment models such as discount for electric
vehicles, etc.
Vehicle Access Control
AI-Powered
Vehicle Access
Control with LPR,
Make & Model Detection
Vehicle Access Control refers to the technology and systems used to regulate and manage the entry or exit of vehicles in a specific area or facility. One important aspect of Vehicle Access Control is License Plate Recognition (LPR) or Automatic Number Plate Recognition (ANPR), which involves a pipeline of tasks for the automatic detection of vehicles, detection of the license plate within the vehicle and recognition or reading and interpretation of vehicle license plates characters.
LPR systems use cameras and image processing algorithms to detect the vehicle in the frame, identify its license plate, extract the alphanumeric characters, and compare them against a database for identification or verification purposes. The goal is to allow authorized vehicles to enter while restricting access to unauthorized or suspicious vehicles, or to manage compliance and billing of parked vehicles.
By leveraging AI, LPR systems can handle challenging conditions, such as high speed, multiple vehicles concurrently, low lighting, varying angles, or occlusions, and still accurately detect and read license plates. AI-powered algorithms can adapt to different license plate designs, including various languages, fonts, colors, and background patterns. The high AI capacity of the Hailo processors enables more advanced LPR models which improve the accuracy and reduce the error rate.
Furthermore, the additional AI power can enable advanced capabilities in vehicle access control systems, such as model, make and color recognition (MMCR). This information can be used for further identification or verification purposes and to enforce access control policies more effectively and with greater accuracy.
Higher Accuracy
with Hailo
Hailo’s high-performance AI processors enable more complex models for LPR and MMCR, which reduce the error rate and increase the reliability of the access control system, for increased safety and lower cost on manual labor.Human Access Control
AI-Powered
Facial Recognition
Human access control, refers to the use of biometric technology to authenticate and grant or deny access to individuals based on their facial features. It involves capturing an image or video of a person’s face, extracting unique facial characteristics, and comparing them against a database of pre-registered faces to determine identity.
AI algorithms were continuously proven to be very effective in performing Facial Recognition tasks. AI-powered facial recognition systems can handle various challenging scenarios, such as changes in lighting conditions, facial expressions, or aging appearances. The algorithms can adapt and generalize to different individuals, including those with different skin tones, facial hair, or accessories. Additionally, AI can improve the result of liveliness checks by enhancing the system’s ability to distinguish between real faces and spoof attempts, such as a photograph or a mask, by analyzing depth, texture, and other subtle cues.
Hailo enables AI access control to be done on the edge of the network, on the camera itself, or in the NVR, for greater privacy and data protection, as people’s private information is processed on the edge and only metadata is transmitted to the cloud.
https://hailo.ai/applications/security/access-control/#Human_Access_Control
專業文章
應用案例
-
利用三泰科技 OCuLink 擴充卡 提升薄型桌上型電腦 GPU 的效能
-
Hailo8 應用 – 人臉辨識
-
ReID 與 Object Detection 的差異與 Hailo 應用實作
-
SUNIX CAN FD 通訊卡在智慧製造場域的應用
-
SUNIX CAN FD通訊卡在軌道交通場域的應用
-
SUNIX CAN FD 通訊卡在 MRI(磁振造影)系統的應用
-
外接儲存系統應用:以三泰科技 OCuLink 擴充卡為核心的高效架構
-
UPB2430 USB4 Daisy Chain 應用:解鎖高效能串接新體驗
-
SUNIX CAN FD 通訊卡在智慧移動機器人(AGV/AMR)中的應用
-
三泰科技 CAN FD 卡在模組化儲能系統中的應用
-
SUNIX CAN FD卡在汽車維修站診斷系統的應用
-
In-Depth Analysis of the SAE J1939 Breaking Down the PNG and SPN
-
CAN FD 在汽車維修站診斷系統的應用與效益提升
-
CAN FD 在電動車電池管理系統中的應用
-
智慧零售中的 AI 應用
-
生成式 AI 在智慧座艙 / 車用資訊娛樂系統 (IVI) 中的應用
-
Generative AI for Smart Cockpit / IVI
-
AI In Smart Retail
-
Hailo AI Processor for Personal Computers
-
Access Control & Identity Management
-
Intelligent Transportation Systems
-
Perimeter Protection
-
Hailo AI Processor for AOI
-
Hailo AI Processor for ADAS & AD
-
Controller Area Network Extra Long (CAN XL) by Cia
-
CAN FD - The basic idea by Cia
-
CAN FD: Anything But Automotive Only by EE Times
