Project Soli is a new technology that uses radar to enable new types of touch less interactions. The movements of gestures from a human can be captured using a radar sensor, and by detection of these gestures, some special task on a device can be done.
Project Soli is a new technology that uses radar to enable new types of touch less interactions. This technology considers the design of a human gesture recognition system based on pattern recognition of signatures from a portable smart radar sensor.
Project soli is a gesture based technology.developed by google ATAP Team.Projct soli is working on the basis of RADAR.Human hand is one of the interactive mechanism to deals with any machine...
This slides must help you to get a great idea about "Project soli"
By,
BHAVIN.B
Bhavinbhadran7u@gmail.com
Soli is one of the projects of Google ATAP.This project is headed by Ivan Poupyrev. Soli was announced at Google I/O 2015. Soli is a new gesture sensing technology for human-computer interaction. Soli is millimetre-wave radar that can detect micro motion of human hand.
Project Soli is a new technology that uses radar to enable new types of touch less interactions. This technology considers the design of a human gesture recognition system based on pattern recognition of signatures from a portable smart radar sensor.
Project soli is a gesture based technology.developed by google ATAP Team.Projct soli is working on the basis of RADAR.Human hand is one of the interactive mechanism to deals with any machine...
This slides must help you to get a great idea about "Project soli"
By,
BHAVIN.B
Bhavinbhadran7u@gmail.com
Soli is one of the projects of Google ATAP.This project is headed by Ivan Poupyrev. Soli was announced at Google I/O 2015. Soli is a new gesture sensing technology for human-computer interaction. Soli is millimetre-wave radar that can detect micro motion of human hand.
Soli is one of the projects of Google ATAP(Advanced Technology And Project group)
Soli is a new sensing technology that uses miniature radar to detect touchless gesture interactions.
Project Soli, a new, robust, high-resolution, low-power, miniature gesture sensing technology for human-computer interaction based on millimeter-wave radar
1 Camera-A webcam captures and recognizes an object in view and tracks the user’s hand gestures using computer-vision based techniques.It sends the data to the smart phone. The camera, in a sense, acts as a digital eye, seeing
what the user sees. It also tracks the movements of the thumbs and index fingers of both of the user's hands. The camera recognizes objects around you instantly, with the micro-projector overlaying the information on any surface, including the object itself or your hand.
2 Projector- a projector opens up interaction and sharing. The project itself contains a battery inside,with 3 hours of battery life. The projector projects visual information enabling surfaces, walls and physical objects around us to be used as interfaces. We want this thing to merge with the
physical world in a real physical sense. You are touching that object and projecting info onto that object. The information will look like it is part of the object. A tiny LED projector
displays data sent from the smart phone on any surface in view–object, wall, or person.
3 Mirror-The usage of the mirror is significant as the projector dangles pointing downwards from
the neck.
4 Mobile Component-The mobile devices like Smartphone in our pockets transmit and receive voice and data anywhere and to anyone via the mobile internet. An accompanying Smartphone runs the Sixth-sense software, and handles the connection to the internet. A Web-enabled smart phone
in the user’s pocket processes the video data. Other software searches the Web and interprets the hand gestures.
5 Color Markers-It is at the tip of the user’s fingers. Marking the user’s fingers with red, yellow, green, and blue tape helps the webcam recognize gestures. The movements and arrangements of these makers are interpreted into gestures that act as interaction instructions for the projected
application interfaces.
Working-The hardware that makes Sixth Sense work is a pendant like mobile wearable interface It has a camera, a mirror and a projector and is connected wireless to a Bluetooth or 3G or wifi smart phone that can slip comfortably into one’s pocket The camera recognizes individuals, images, pictures, gestures one makes with their hands Information is sent to the Smartphone for processing The downward-facing projector projects the output image on to the mirror.Mirror reflects image on to the desired surface Thus, digital information is freed from its confines and placed in the physical world.
Teknologi merupakan suatu sarana yang digunakan untuk memenuhi kebutuhan hidup manusia. Beberapa teknologi dewasa ini merupakan penerapan teknologi sains dalam kehidupan sehari-hari. Dari hari ke hari, dari tahun ke tahun, perkembangan teknologi semakin berkembang pesat. Setiap diri manusia berusaha ingin mengembangkannya setiap saat guna mendapatkan kepuasan yang diinginkan. Kepuasan yang bisa membuat mereka merasa nyaman dan bahagia di dunia ini. Kepuasan yang bisa membuat semua orang merasa lebih sejahtera.
Manusia diberi oleh Tuhan Yang Maha Kuasa akal dan ilmu. Karena akal dan ilmu itulah yang membuat kita bisa mencapai taraf hidup yang lebih baik seperti sekarang. Akal dan ilmu adalah satu kesatuan yang tidak bisa dipisahkan. Akal dan ilmu yang dimiliki oleh manusia akan terus berkembang seiring dengan majunya peradaban.
IPS(In-plane switching) is a screen technology for liquid crystal displays (LCDs). These limitations included strong viewing angle dependence and low-quality colour reproduction.In-plane switching involves arranging and switching the orientation of the molecules of the liquid crystal (LC) layer between the glass substrates. This is done, essential
Soli is one of the projects of Google ATAP(Advanced Technology And Project group)
Soli is a new sensing technology that uses miniature radar to detect touchless gesture interactions.
Project Soli, a new, robust, high-resolution, low-power, miniature gesture sensing technology for human-computer interaction based on millimeter-wave radar
1 Camera-A webcam captures and recognizes an object in view and tracks the user’s hand gestures using computer-vision based techniques.It sends the data to the smart phone. The camera, in a sense, acts as a digital eye, seeing
what the user sees. It also tracks the movements of the thumbs and index fingers of both of the user's hands. The camera recognizes objects around you instantly, with the micro-projector overlaying the information on any surface, including the object itself or your hand.
2 Projector- a projector opens up interaction and sharing. The project itself contains a battery inside,with 3 hours of battery life. The projector projects visual information enabling surfaces, walls and physical objects around us to be used as interfaces. We want this thing to merge with the
physical world in a real physical sense. You are touching that object and projecting info onto that object. The information will look like it is part of the object. A tiny LED projector
displays data sent from the smart phone on any surface in view–object, wall, or person.
3 Mirror-The usage of the mirror is significant as the projector dangles pointing downwards from
the neck.
4 Mobile Component-The mobile devices like Smartphone in our pockets transmit and receive voice and data anywhere and to anyone via the mobile internet. An accompanying Smartphone runs the Sixth-sense software, and handles the connection to the internet. A Web-enabled smart phone
in the user’s pocket processes the video data. Other software searches the Web and interprets the hand gestures.
5 Color Markers-It is at the tip of the user’s fingers. Marking the user’s fingers with red, yellow, green, and blue tape helps the webcam recognize gestures. The movements and arrangements of these makers are interpreted into gestures that act as interaction instructions for the projected
application interfaces.
Working-The hardware that makes Sixth Sense work is a pendant like mobile wearable interface It has a camera, a mirror and a projector and is connected wireless to a Bluetooth or 3G or wifi smart phone that can slip comfortably into one’s pocket The camera recognizes individuals, images, pictures, gestures one makes with their hands Information is sent to the Smartphone for processing The downward-facing projector projects the output image on to the mirror.Mirror reflects image on to the desired surface Thus, digital information is freed from its confines and placed in the physical world.
Teknologi merupakan suatu sarana yang digunakan untuk memenuhi kebutuhan hidup manusia. Beberapa teknologi dewasa ini merupakan penerapan teknologi sains dalam kehidupan sehari-hari. Dari hari ke hari, dari tahun ke tahun, perkembangan teknologi semakin berkembang pesat. Setiap diri manusia berusaha ingin mengembangkannya setiap saat guna mendapatkan kepuasan yang diinginkan. Kepuasan yang bisa membuat mereka merasa nyaman dan bahagia di dunia ini. Kepuasan yang bisa membuat semua orang merasa lebih sejahtera.
Manusia diberi oleh Tuhan Yang Maha Kuasa akal dan ilmu. Karena akal dan ilmu itulah yang membuat kita bisa mencapai taraf hidup yang lebih baik seperti sekarang. Akal dan ilmu adalah satu kesatuan yang tidak bisa dipisahkan. Akal dan ilmu yang dimiliki oleh manusia akan terus berkembang seiring dengan majunya peradaban.
IPS(In-plane switching) is a screen technology for liquid crystal displays (LCDs). These limitations included strong viewing angle dependence and low-quality colour reproduction.In-plane switching involves arranging and switching the orientation of the molecules of the liquid crystal (LC) layer between the glass substrates. This is done, essential
COMP 4026 Advanced HCI lecture 6 on OpenFrameworks and Google's Project Soli. Taught by Mark Billinghurst at the University of South Australia on August 25th 2016.
Interior Architecture (Digital Documentation - Revit) - Student AcomodationLarissa Ellen
"Glenwood" is a building designed for students studying at Swinburne University of Technology. It is located on the corner of Glenferrie Rd and Burwood Rd in Hawthorn. This project allowed me to understand how to document and use commands in Revit (Industry standard CAD software). Furthermore, the project helped me understand the important elements that required for construction documentation and client documentation
It was the touch screens which initially created great foregone are the days when you have to fiddle with the touch screens and end scratching up. Touch screen displays are ubiquitous worldwide. Frequent touching a touchscreen display with a pointing device such as a finger can result in the gradual de-sensitization of the touchscreen to input and can ultimately lead to failure of the touchscreen. To avoid this a simple user interface for Touchless control of electrically operated equipment is being developed. Elliptic Labs innovative technology lets you control your gadgets like Computers, MP3 players or mobile phones without touching them. A simple user interface for Touchless control of electrically operated equipment. Unlike other systems which depend on distance to the sensor or sensor selection this system depends on hand and or finger motions, a hand wave in a certain direction, or a flick of the hand in one area, or holding the hand in one area or pointing with one finger for example. The device is based on optical pattern recognition using a solid state optical matrix sensor with a lens to detect hand motions. This sensor is then connected to a digital image processor, which interprets the patterns of motion and outputs the results as signals to control fixtures, appliances, machinery, or any device controllable through electrical signals.
Google Glass, smart watches, athletic monitoring bracelets, and even Oculus Rift, the virtual reality goggles, have triggered the imagination of mobile developers ready to explore the potential of placing a computer on the body. Researchers have been developing wearable computers for many years, but today’s miniaturized, low-cost components and powerful mobile processors have made it easy to develop devices that integrate a persons physical state, location, and gestures. These devices can solve many accessibility issues, from detecting oncoming sirens for deaf individuals to hands-free control of mobile phones, wheelchairs, and other devices. Head mounted devices track the user’s sightline, motion-based sensors track gestures and movements, and geolocation provides context specific information. This talk introduces today’s wearable computers, key research projects, and what ideas for future products.
Wearable devices go beyond the watch and eye glasses. This presentation introduces the wide variety of devices and how they can make the world more accessible.
Generally human having five sense, Sixth sense is a gesture wearable interface that augment the physical world around us with digital information and lets us use natural hands gestures to interact with that information.it was developed by a Phd Scholar, a flood interface group at the MIT, Pranav Mistry
The fifth lecture from the Augmented Reality Summer School taught by Mark Billinghurst at the University of South Australia, February 15th - 19th, 2016. This provides an overview of AR research directions.
Project Soli, a new, robust, high-resolution, low-power, miniature gesture sensing technology for human-computer interaction based on millimeter-wave radar
This presentation deals with the combination of Sixth Sense technology and Robotics.
The Autonomous Robots are controlled using basic Hand gestures through sixth sense technology.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
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See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
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Speakers:
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The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
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JMeter webinar - integration with InfluxDB and GrafanaRTTS
Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
In this webinar, we will review the benefits of leveraging InfluxDB and Grafana when executing load tests and demonstrate how these tools are used to visualize performance metrics.
Length: 30 minutes
Session Overview
-------------------------------------------
During this webinar, we will cover the following topics while demonstrating the integrations of JMeter, InfluxDB and Grafana:
- What out-of-the-box solutions are available for real-time monitoring JMeter tests?
- What are the benefits of integrating InfluxDB and Grafana into the load testing stack?
- Which features are provided by Grafana?
- Demonstration of InfluxDB and Grafana using a practice web application
To view the webinar recording, go to:
https://www.rttsweb.com/jmeter-integration-webinar
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Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
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All of this illustrated with link prediction over knowledge graphs, but the argument is general.
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De-mystifying Zero to One: Design Informed Techniques for Greenfield Innovati...
Google project soli
1. RAMANANDATIRTHA ENGINEERING COLLEGE
DEPARTMENT OF
ELECTRONICS & COMMUNICATION ENGINEERING
A
TECHNICAL SEMINAR REPORT ON
PROJECT SOLI
Under the guidance of
Mrs. K.PRIYANKA, M.tech Presented By
ASSISTANT PROFFESOR S.BHAVANI NAIDU
2. Contents
• Abstract
• Introduction
• What is project soli..?
• About project soli.
• How it Works
• Machine-learning
• Virtual Tools
• Applications
• Advantages
• Disadvantages
• Conclusion
3. ABSTRACT
•Project Soli is a new technology that uses
radar to enable new types of touch less
interactions.
•The movements of gestures from a human
can be captured using a radar sensor, and
by detection of these gestures, some
special task on a device can be done.
5. What is project soli…?
•Project Soli is a sensor that uses the radar
technology can easily be used in even the
smallest wearable's that fits within a tiny
chip.
•It is capable of accurately detecting your
hand movements in real-time.
•Its like Leap Motion and other gesture-
tracking controllers.
6. About project soli
•The founder of the project is Ivan Poupyrev in 2015.
•The soli is small in size of a 5x5 mm and made up of a
silicon.
•It has a sensor which capture submillimeter of
motions of fingers in 3D space.
•The team has created a radar which has the
interaction sensor running at 60GHz.
•It captures motions of fingers at a phenomenal rate
of 10,000 frames per second
7. Working
•It works by emitting electromagnetic waves in a broad
beam.
•Properties of the reflected signal, such as energy, time
delay and frequency shift capture rich information
about the objects and Doppler effect to detect speed.
• It then uses machine-learning to translate these
movements to pre-programmed commands .
8. What is machine
learning..?
•Machine learning is subfield of computer science
that evolved from the study of pattern recognition
and computational learning theory in artificial
intelligence.
9. Virtual Tools
•The concept of virtual tool is key to soli interactions
•Virtual tools are gestures that familiar interactions
with physical tools.
•This make it easy to communicate, learn and
remember soli interactions.
11. Advantages
•Allows to control Gadgets with gestures.
•Allows free hand typing.
•Good Accuracy over control.
•Need not to carry gadgets while using them.
12. Disadvantages
•It has a very small radar range.
•Multiple gestures could not be possible.
•Highly Expensive.
•Security Threat.
13. Conclusion
•One of the big problems with wearable devices
right now is inputs - there's no simple way to
control these devices. Therefore gestures will be
used by individuals to carry out certain functions
with electronic machines such as Smartphone's and
desktops.
