|HQ Location||India||Australia||United States||United States||United States||China|
|Stock Ticker||SHE: 002415|
|Revenue||< $10m||< $10m||< $10m||< $10m||< $10m||$10-100m|
|Employees||< 10||51 - 200||11 - 50||11 - 50||< 10||51 - 200|
|Website||Open website||Open website||Open website||Open website||Open website||Open website|
CynLr is a visual object intelligence platform that enables industrial robotic arms to see, understand and manipulate any object in random unstructured environments
Baraja is a 3D machine vision systems manufacturer. It has invented a new type of LiDAR called Spectrum-Scan which delivers the highest performance available to address the challenge of self-driving cars.
Baraja is a rapidly growing start-up, with a revolutionary LiDAR for self-driving vehicles. The company is based in Sydney, Australia, with offices in China and the USA. It is quickly expanding worldwide, hiring through Europe and Asia, closely collaborating with car manufacturers to iterate and refine its vision of what LiDAR needs to be.
Veo Robotics is transforming manufacturing with products that incorporate advanced computer vision, 3D sensing, and AI. Their first product lets high-performance industrial robots work collaboratively with people to enable much more flexible, productive, and efficient manufacturing workcells.
Industry 4.0 has a blind spot: Human beings. It turns out that people still perform up to 90% of factory tasks. Even in an age of robotics and IIoT, people are the main contributor to value-and, alas, to variability. Unfortunately, techniques for measuring human effectiveness haven't materially changed in a century. They remain manual and impossible to perform at scale. People are effectively invisible to analytics. Drishti (Sanskrit for "vision") solves this problem using what may be the world's first commercial application of action recognition to digitize human activities on the assembly line. Drishti creates a massive new dataset that enables true Digital Transformation for manufacturers while simultaneously making line workers more competitive against automation. Our mission is to "extend human potential in an increasingly automated world", starting with this 100-year-old problem in the $12T global manufacturing industry.
Pioneered in large data centers, Deep Learning-powered computer vision is now being deployed across a variety of embedded platforms such as drones, robots, IoT smart cameras and cars. These devices require computer vision capabilities that run at the edge, in real-time and enable long battery life. Deep Vision is meeting these needs with a completely new approach to processors and software. Our unique vision-specific processor is faster and more power efficient than GPU and DSP processing for modern computer vision problems. Coupled with a full stack of low power and real time deep learning computer vision software, our system gives small devices like drones, robots, and IOT cameras the ability to have embedded computer vision.
Hikvision is an IoT solution provider with video as its core competency. Hikvision advances the core technologies of audio and video encoding, video image processing, and related data storage, as well as forward-looking technologies such as artificial intelligence, cloud computing and big data. Over the past several years, We deepened its knowledge and experience in meeting customer needs in various vertical markets, including public security, transportation, retail, education, healthcare, financial institutions, intelligent buildings and others. Accordingly, the company provides professional and customized solutions to meet diverse market requirements. In addition to the video security industry, Hikvision extended its business to smart home tech, industrial automation, and automotive electronics industries — all based on video intelligence technology — to explore channels for sustaining long-term development.
3D Bin-Picking solutions available in the market perform basic pattern-matching algorithms on sparse 3D depth-map data. Therefore they work only when object geometries are simple, with no occlusion or entanglement, with atleast one part fully visible in the viewing angle trained for, and can only approximately pick and drop objects. The purpose of picking an object during a manual task is almost always to place in a desired orientation, hence approximate picks and drops finds very limited use-cases.
Baraja LiDAR connects a wavelength-tuneable laser (“Engine”) to prism-like optics (“Sensorheads”) using robust optic fiber cable. When light reaches the optics, it is naturally deflected in different directions: no rotating lasers or moving mirrors required.
By changing the color – or wavelength – of the laser, the system can scan different angles instantaneously, with unparalleled detail and adaptability.
FREEMOVE? Veo FreeMove can be used with standard industrial robots from major manufacturers, which can have payloads of hundreds of kilograms and move at many meters per second. In order to make these types of robots robots truly collaborative, safety has been Veo’s paramount focus since its founding. The Veo FreeMove system is compliant with ISO 13849 (Safety of machinery―Safety-related parts of control systems), meets the requirements of PL=d, structure category 3, and consists of: FreeMove Sensors?: custom, 3D time-of-flight sensors that are mounted on the workcell periphery to cover the volume of the safeguarded space. FreeMove Engine?: a high-performance, dual-channel architecture computing platform that runs fail-safe software that processes image data from the sensors and implements Speed & Separation Monitoring (per ISO 15066). FreeMove Studio?: a software suite for self-service configuration and real-time visualization of the sensors and FreeMove Engine? data.
Our core innovation: action recognition Drishti has built a new deep learning architecture that uniquely parses streams of video to generate real-time analytics on highly variable human actions. Put simply, Drishti can recognize activities being performed as the operator performs them, even if Drishti has never observed that operator before. Drishti is the only company in the world commercializing action recognition specifically for manufacturing, and one of the very few working with the technology in any industry. Beyond action recognition: our full stack Action recognition is just part of the solution. Drishti’s vertically integrated manufacturing solution extends end-to-end: from capturing video to creating data to providing applications, data services and workflow support for line operators, supervisors, engineers and more.
Deep Vision has an ultra low power processor that is built from the ground up to run Deep Learning and other computer vision algorithms. Offering 100% programability, our processor can support all computer vision CNNs. We’ve built a full stack of complementary software that enable low power and real time processing. Innovative Architecture *High performance, scalable processor architecture that is completely programmable *60x better performance vs. competitors. Deep Learning Support *Built specifically to support Deep Learning, CNNs and traditional computer vision algorithms. *Software for easy software design and implementation. Low Power Design *Hardware and software combine to provide unprecedented power savings without performance loss. *Ideal for both embedded power and larger scalable solutions.
|Technologies||Analytics & ModelingRobots||Analytics & ModelingSensors||RobotsAnalytics & ModelingSensors||Analytics & ModelingSensors||Analytics & Modeling||Analytics & ModelingDrones|
|Industries||BuildingsEducationElectrical GridsFinance & InsuranceOil & GasRailway & MetroSecurity & Public SafetyTransportation|
|Use Cases||Computer Vision||Computer Vision||Computer VisionVisual Quality DetectionFactory Operations Visibility & Intelligence||Computer Vision||Computer Vision|
|Infrastructure as a Service (IaaS)||None||None||None||None||None||None|
|Platform as a Service (PaaS)||None||None||None||None||None||None|
|Application Infrastructure & Middleware||None||None||None||None||None||None|
|Analytics & Modeling||Minor||Minor||Minor||Minor||Moderate||Minor|
|Cybersecurity & Privacy||None||None||None||None||None||None|
|Networks & Connectivity||None||None||None||None||None||None|
|Processors & Edge Intelligence||None||None||None||None||None||None|
|Automation & Control||None||None||None||None||None||None|