3. LIST OF CONTENTS...
• Introduction.
• Who Invented it.
• Technology Used.
• Different Models.
• Different Types.
• Uses& Advantages.
• Disadvantages.
• Conclusion.
4. Introduction.
• Wearable computers that adds information to what the wearer
sees.
• Are computerized internet connected glasses.
• With transparent heads up display.
5. • Like other computers smart glasses also collect information from internal
and external sources.
• Smart glasses have all the features of smart phones.
• Supports Bluetooth, wi-fi, and GPS.
• Some also have activity tracker functionality features(such as distance
walked or run, calories burned, heartbeat count etc.).
6.
7. Inventor
… Professor Steve Mann
Father of Smart Glasses
Steven Mann is a
Canadian researcher
and inventor best
known for his work
particularly wearable
computing .
9. Display Types
Various techniques have existed for see through
HMDs.
Some Main Families:-
Curved Mirror :- used by Vuzix, by Olympus, and Laster technologies.
Waveguide or Light guide based :- used by Sony, Epson.
Virtual Retinal Displays :- technology that draws a raster display(like
telivision onto the retina of eye).
Technical Illusions CastAR :- uses a different technique with clear glass. The
Glass has a projector, and image is returned to the eve by a reflective
surface.
10. Augmented Reality(AR)
• Is a direct/indirect view of physical, real world environment.
• By contrast Virtual reality replaces the real world with a simulated
one.
• Augmentation is conventionally in real time and in semantic
context with environment elements, such sports scores on TV
during a match.
• With help of AR Technology information of real world becomes
interactive and digitally manipulable.
11.
12. Head-mounted display(HMD)
• It is a device paired to forehead such as a helmet.
• It place images of both the physical world and virtual
objects over the user’s field of view.
15. • Vuzix M300.
• Epson Moverio BT-300.
• Sony SmartEyeGlass.
• Jins Meme.
Different models available…
16. 1. Vuzix M300.
• Launched in 2013.
• Runs on Android(all latest versions), with 2 G.B. Ram and 16
G.B. internal storage.
• Comes with 13-mega pixel camera for taking pictures and head
tracking support and dual cancelling microphones.
• Market Price $1,499.
17.
18. 2. Epson Moverio
BT-300.
• Launched in Barcelona, Spain, Feb. 22, 2016 at Mobile World
congress.
• Comes with a 5 megapixels front facing camera.
• It runs on Android Lollipop.
• Epson plans to sell the Moverio BT-300 smart glasses by this year’s
end.
19. • It uses significantly sharper 720p HD resolution OLED display.
• Market price $750.
20. 3. Sony Smart Eye Glass.
Released on 27 March 2015.
3 MP camera for still images.
Includes accelerometer, gyroscope, electronic compass,
brightness sensor, microphone and noise suppression sub
microphone.
Weight approx. 77 g (2.7 oz) without controller.
Supports devices running Android 4.4 and above.
Market Price $840 .
21. 4. Jins Meme.
• Tokyo based Jins demoed its Meme smart glasses over in 2015
and while they haven't gone on sale yet.
• Detects body movements to track and alert on safety, health and
fitness.
• They can track tiredness and alert drivers who may be about to
nod off.
• There's still no details on US or UK pricing , but in Japan its
39000 JPY.
23. A. Glasses with one display.
Glasses with one display in peripheral vision
Can:
Display information.
Be “smart” (sensing, processing, actuation) .
Can not:
Produce 3D content.
Create a virtual or diminished reality.
Fully exhaust the possibilities of augmented reality.
24.
25. B. Glasses with two display.
Can be used to create:
Virtual reality.
Augmented reality.
Diminished reality.
31. Medica
l
• Track medicine consumption.
• Subtitles for hearing impaired (future) .
• VR to distract from pain in physical therapy .
• Software adjustable seeing aid.
• Lenses that measure blood sugar.
32. Safety
• Warn when in danger.
• Accident detection and reaction.
• Video & Audio stream to police.
• Possibility for surveillance by government.
33. Education
• Living history.
• Augmented professor.
• Sophisticated simulations for training.
• Virtual objects to experience physics.
• Virtual classroom.
34. Productivity
• Stream Video to co-worker, instructor, expert or trainee.
• Watch instructions during work.
• Real time translation.
• Guide warehouse employees.
• Augment construction sites with model.
• Monitor employees eye movement.
37. • Data Inaccuracy.
• Charging(Battery runs down quickly).
• Not feasible for prescription eye-ware users.
• Lack Of availability.
• Expensive.
• Accidents.
• Lack of privacy.
38.
39. • Promising hardware Will probably need a few iterations to get it
right.
• Many unique and useful applications possible Often easy to
implement.
• Interesting for business and entertainment industry funding for
research and development.