Intel RealSense Technology, formerly known as Intel Perceptual Computing, is a product range of depth and tracking technologies designed to give machines and devices depth perception capabilities. The technologies, owned by Intel are used in autonomous drones, robots, AR/VR, smart home devices amongst many others broad market products.
Company type | Product Line |
---|---|
Industry | Artificial intelligence, Camera, Depth perception, 3D reconstruction |
Founded | 2015 |
Headquarters | Santa Clara, California |
Products | Intel RealSense |
Parent | Intel |
Website | www |
Developer | Intel RealSense |
---|---|
Manufacturer | Intel |
Type | Cameras, Technology |
The RealSense products are made of Vision Processors, Depth and Tracking Modules, and Depth Cameras, supported by an open source, cross-platform SDK in an attempt to simplify supporting cameras for third party software developers, system integrators, ODMs and OEMs.[1]
History
editIntel began producing hardware and software that utilized depth tracking, gestures, facial recognition, eye tracking, and other technologies under the branding Perceptual Computing in 2013.[2][3] According to Intel, much of their research into the technologies is focused around "sensory inputs that make [computers] more human like". They initially hoped to begin including 3D cameras that could support their Perceptual Computing as opposed to traditional 2D cameras by late 2014.[4]
In 2013, Intel ran a competition among seven teams to create software highlighting the capabilities of its Perceptual Computing technology entitled "Intel Ultimate Coder Challenge: Going Perceptual".[3][5]
In 2014, Intel rebranded their Perceptual Computing line of technology as Intel RealSense.[2][6]
Intel RealSense Group supports multiple depth and tracking technologies including Coded Light Depth, Stereo Depth and Positional Tracking.[7]
To address the lack of applications built on the RealSense platform and to promote the platform among software developers, in 2014 Intel organized the "Intel RealSense App Challenge". The winners were awarded large sums of money.[8]
Product series
editIntel RealSense D400 Product Family
editAs of January 2018, new Intel RealSense D400 Product Family was launched with the Intel RealSense Vision Processor D4, Intel RealSense Depth Module D400 Series, and 2 ready to use depth cameras: Intel RealSense Depth Cameras D435 and D415.
Intel RealSense Vision Processor D4 Series
editThe Intel RealSense Vision Processor D4 series are vision processors based on 28 nanometer (nm) process technology to compute real-time stereo depth data. They utilise a depth algorithm that enables more accurate and longer range depth perception than previously available. There are two products in this family: RealSense Vision processor D4 and RealSense Vision Processor D4m.[citation needed]
Other products
editThe Intel RealSense Depth Module D400 Series is designed for easy integration to bring 3D into devices and machines. Intel also released the D415 and D435 in 2018. Both cameras feature the RealSense Vision processor D4 and camera sensors. They are supported by the cross-platform and open source Intel RealSense SDK 2.0. The Intel D415 is designed for more precise measurements.[citation needed]
Intel RealSense Depth Camera D435
editThe Intel RealSense Depth Camera D435 is for capturing stereo images as well as depth (by using a Structured-light 3D scanner) for a variety of applications that need perceive the world in 3D.[9][10][11][12][13][14][15][16][17]
Previous Generations
editPrevious generations of Intel RealSense depth cameras (F200, R200 and SR300) were implemented in multiple laptop and tablet computers by Asus, HP, Dell, Lenovo, and Acer.[18] Additionally, Razer and Creative offered consumer ready standalone webcams with the Intel RealSense camera built into the design.:[19] Razer Stargazer and the Creative BlasterX Senz3D.[20]
Intel RealSense 3D Camera (Front F200)
editThis is a stand-alone camera that can be attached to a desktop or laptop computer.[21] It is intended to be used for natural gesture-based interaction, face recognition, immersive, video conferencing and collaboration, gaming and learning and 3D scanning.[22] There was also version of this camera to be embedded into laptop computers.[18]
Intel RealSense Snapshot
editSnapshot is a camera system intended to be built into tablet computers and possibly smartphones. Its intended uses include taking photographs and performing after the fact refocusing, distance measurements, and applying depth photo filters.[23] The refocus feature differs from a plenoptic camera in that RealSense Snapshot takes pictures with large depth of field so that initially the whole picture is in focus and then in software it selectively blurs parts of the image depending on their distance. The Dell Venue 8 and 10 7000 Series Android tablets are equipped with this camera.[24]
Intel RealSense 3D Camera (Rear R200)
editRear-mounted camera for Microsoft Surface or a similar tablet, like the HP Spectre X2.[25] This camera is intended for augmented reality applications, content creation, and object scanning. Its depth accuracy is on the order of millimeters and its range is up to 6.0 meters. The R200 is a stereo camera and is able to obtain accurate depth outdoors as well as indoors.[26]
Reception
editIn an early preview article in 2015, PC World's Mark Hachman concluded that RealSense is an enabling technology that will be largely defined by the software that will take advantage of its features. He noted that as of the time the article was written, the technology was new and there was no such software.[27]
Product Technical Specifications
editSpecifications: Intel RealSense Depth Camera D415, D435 and D455 [28][29][30][31]
D415 | D435 | D455 | |
---|---|---|---|
Use Environment | Indoor/Outdoor | ||
Depth Technology | Active infrared (IR) stereo | ||
IR Projector & Left/Right Camera Type | Standard | Wide | |
Shutter Type | Rolling | Global | |
Image Sensor Module | OV2740 (OV02740-H34A-Z)[32] | OV9782 (OV09782-GA4A)[33] | |
Image Sensor Technology | PureCel HDR[32] | OmniPixel3-GS[33] | |
Image Sensor Size | 1⁄6 inch, 3855 μm × 2919 μm[32] | 1⁄4 inch, 3896 μm × 2453 μm[33] | |
Image Sensor Pixel Size | 1.4 μm × 1.4 μm[32] | 3 μm × 3 μm[33] | |
Vision Processor Board | RealSense Vision Processor D4 | ||
Depth Sensor Module | RealSense Module D415 | RealSense Module D430 + RGB Camera | RealSense Module D450 |
Depth Field of View for HD | H:65°±2 V:40°±1 D:72°±2 | H:87°±3 V:58°±1 D:95°±3 | |
Depth Field of View for VGA | H:50°±2 V:40°±1 D:61°±2 | H:75°±3 V:62°±1 D:89°±3 | |
Depth Resolution and Framerate | Up to 1280px × 720px @ 90fps | ||
Minimum Depth Distance at Maximum Resolution | 45 cm / 17.7" | 28 cm / 11.0" | 52 cm / 20.5" |
Depth Accuracy | <2% at 2.0m / 2.2yd | <2% at 4.0m / 4.4yd | |
Ideal and Maximum Range | 0.5m to 3m / 0.6yd to 3.3yd | 0.3m to 3m / 0.3yd to 3.3yd | 0.6m to 6m / 0.3yd to 6.6yd |
RGB Resolution, Framerate and Aspect Ratio | 1920px × 1080px @ 30fps (16:9) | 1280px × 800px @ 30fps (8:5) | |
RGB Field of View | H:69.4° V:42.5° D:77.0° | H:91.2° V:65.5° D:100.6° | |
RGB Lens Distortion | ≤1.5% | ||
Device Dimensions | 99mm × 20mm × 23mm | 90mm × 25mm × 25mm | 124mm × 26mm × 29mm |
Connector | USB Type-C 3.1 Gen 1 | ||
Mounting Mechanisms | One 1/4-20UNC thread mounting point | ||
Two M3 thread mounting points | Two M4 thread mounting points |
Specifications: Intel RealSense Vision Processor D4 Series[34]
(Not available separately as these are just the bare PCB Vision Processor boards, only used as basis for the RealSense Depth Camera series)
RealSense Vision Processor D4 | RealSense Vision Processor D4M | |
Depth Technology | Stereo | Stereo |
Form Factor | ASIC BGA | ASIC BGA |
Package Size | 6.4mm x 6.4mm x 1mm | 4.7mm x 3.8mm x 0.55mm |
Process Technology | 28 nm | 28 nm |
Depth Max Throughput | 36.6 MP/sec (848×480@90fps) | |
Depth Stream Output Resolution | Up to 1280×720 | Up to 720×720 |
Depth Stream Output Frame Rate | Up to 90fps | |
RGB Sensor Max Resolution & Max Frame Rate | 1920×1080, Up to 60fps | 720×720, Up to 30 fps |
IR Projector Controls | Yes | Yes |
Host Interface | USB 3.0 | 2x MIPI |
Multi Camera Support | Yes, up to 5 | Up to 30fps |
I/O | 5x MIPI CSI-2, 5x I2C, 1x SPI, GPIO, Timer | 2x MIPI 1x I2C, 1x SPI, GPIO, Timer |
Specifications: Intel Stereo DepthModule SKUs[35]
(Not available separately as these are just the bare PCB Depth Sensor Modules, only used as basis for the RealSense Depth Camera series)
D400 | D410 | D415 | D420 | D430 | |
Depth technology | Passive IR Stereo | Active IR Stereo | Active IR Stereo | Passive IR Stereo | Active IR Stereo |
Image Sensor technology | Rolling Shutter | Rolling Shutter | Rolling Shutter | Global Shutter | Global Shutter |
Depth FOV (HxV for HD 16:9) | 63.4degx 40.4deg | 63.4degx 40.4deg | 63.4degx 40.4deg | 85.2degx 58deg | 85.2degx 58deg |
RGB Frame Rate and Resolution | - | - | Up to 60FPS | - | - |
Depth Resolution | Up to 1280x720 | Up to 1280x720 | Up to 1280x720 | Up to 1280x720 | Up to 1280x720 |
Depth Frame Rate | Up to 90fps | Up to 90fps | Up to 90fps | Up to 90fps | Up to 90fps |
Range | 0.16-10m+ | 0.16-10m+ | 0.16-10m+ | 0.11-10m+ | 0.11-10m+ |
See also
editReferences
edit- ^ "Intel RealSense". Intel RealSense. Retrieved April 14, 2018.
- ^ a b "Intel And Qualcomm Battle To Bring Computer Vision Into Phones And Drones". Forbes. August 10, 2023. Archived from the original on August 10, 2023. Retrieved August 10, 2023.
- ^ a b Owano, Nancy; Phys.org (January 14, 2013). "Intel's Perceptual Computing marks neo-desktop era". phys.org. Archived from the original on January 15, 2013. Retrieved August 10, 2023.
- ^ "Inside Intel's perceptual computing lab (pictures)". CNET. November 29, 2013. Archived from the original on August 10, 2023. Retrieved August 10, 2023.
- ^ "The Ultimate Coder Has Been Named - Final Results of Ultimate Coder Challenge: Going Perceptual". Intel® Developer Zone. July 31, 2013. Archived from the original on July 31, 2013. Retrieved August 10, 2023.
- ^ tony2 (October 8, 2014). "Old Perceptual Computing SDK download". Intel Community Developer Software Forums. Archived from the original on August 10, 2023. Retrieved August 10, 2023.
{{cite web}}
: CS1 maint: numeric names: authors list (link) - ^ "Intel RealSense". Intel RealSense. Retrieved April 14, 2018.
- ^ Healey, Nic (June 3, 2014). "Intel issues $1m challenge for devs to make RealSense apps". CNET. Archived from the original on October 6, 2022. Retrieved August 10, 2023.
- ^ "$399 Intel Euclid Robotics Devkit Runs Ubuntu & ROS on Intel Atom x7-Z8700 Processor - CNX Software". May 22, 2017.
- ^ "EUCLID1 Intel Euclid Developer Kit RF Exposure Info SA170103W003_CCS-G003_FCC SAR_Report_WLAN&BT Intel". FCC ID. Retrieved April 23, 2024.
- ^ "Intel Announces Tools for RealSense Technology Development". Retrieved April 23, 2024.
- ^ Archived at Ghostarchive and the Mail incoming, trying out and tearing down the Intel Euclid @scanlime-in-progress. YouTube. Archived from the original on June 24, 2017. Retrieved December 11, 2021.
{{cite AV media}}
: CS1 maint: bot: original URL status unknown (link): Mail incoming, trying out and tearing down the Intel Euclid @scanlime-in-progress. YouTube. - ^ "Intel | Data Center Solutions, IoT, and PC Innovation".
- ^ "Home". euclidcommunity.intel.com. Archived from the original on May 23, 2018. Retrieved May 23, 2018.
- ^ "IntelEuclid - ROS Wiki".
- ^ "Intel Euclid". GitHub.
- ^ "Support for Intel Euclid Development Kit".
- ^ a b "Devices with Intel RealSense Technology". Intel.
- ^ "At a Glance: Razer Stargazer | RZ20-01800". mysupport.razer.com. Retrieved October 18, 2022.
- ^ "Razer and Creative want you to wave at your webcam". September 15, 2016.
- ^ "Take Interaction to the Next Level – Intel RealSense Camera F200". Intel.
- ^ "Developing for the Intel RealSense Camera (F200)". Intel.
- ^ "Developing for the Intel RealSense Snapshot". Intel. Archived from the original on May 14, 2015.
- ^ "Intel RealSense Snapshot". Intel. Archived from the original on May 3, 2015.
- ^ "HP Spectre X2". HP.
- ^ Keselman, Leonid; Woodfill, John Iselin; Grunnet-Jepsen, Anders; Bhowmik, Achintya (May 16, 2017). "Intel RealSense Stereoscopic Depth Cameras". arXiv:1705.05548 [cs.CV].
- ^ "Hands on: Without apps, Intel's RealSense camera is a puzzle". PC World. March 5, 2015. Retrieved March 25, 2015.
- ^ "RealSense Depth Camera D415 Technical Specifications". Intel Store. Retrieved May 20, 2021.
- ^ "RealSense Depth Camera D435 Technical Specifications". Intel Store. Retrieved May 20, 2021.
- ^ "RealSense Depth Camera D455 Technical Specifications". Intel Store. Retrieved May 20, 2021.
- ^ "Intel RealSense Product Family D400 Series Datasheet" (Datasheet). Intel RealSense. pp. 36, 37, 52. Retrieved May 20, 2021.
- ^ a b c d "OV2740 Color CMOS 1080p (1920x1080) HD PureCel Image Sensor". OmniVision. Retrieved May 20, 2021.
- ^ a b c d "OV9782 Color CMOS 1-Megapixel (1280x800) Image Sensor with OmniPixel3-GS Technology". Retrieved May 20, 2021.
- ^ "Intel RealSense Product Family D400 Series Datasheet" (Datasheet). Intel RealSense. Table 3-11. p. 36. Retrieved May 20, 2021.
{{cite web}}
: CS1 maint: location (link) - ^ "Intel RealSense Product Family D400 Series Datasheet" (Datasheet). Intel RealSense. Table 3-42. p. 55. Retrieved May 20, 2021.
{{cite web}}
: CS1 maint: location (link)