Smart glasses: Difference between revisions - VR & AR Wiki - Virtual Reality & Augmented Reality Wiki

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~~= Smart~~ glasses =

~~'''~~Smart glasses~~'''~~ are [[wearable technology|wearable computing]] devices that resemble conventional [[eyewear]] but feature integrated electronic components that can provide a variety of functions, most prominently [[augmented reality]] (AR) capabilities. Unlike fully immersive [[virtual reality]] (VR) headsets, smart glasses typically overlay digital information onto the user's view of the real world.<ref>Azuma, R., Baillot, Y., Behringer, R., Feiner, S., Julier, S., & MacIntyre, B. (2001). Recent advances in augmented reality. IEEE Computer Graphics and Applications, 21(6), 34-47.</ref> They represent one of the most promising and challenging frontiers in the evolution of [[mixed reality]] technologies.

[[File:google glass1.jpg|350px|thumb|[[Google Glass]]]]

[[Smart glasses]] are [[wearable technology|wearable computing]] devices that resemble conventional [[eyewear]] but feature integrated electronic components that can provide a variety of functions, most prominently [[augmented reality]] (AR) capabilities. Unlike fully immersive [[virtual reality]] (VR) [[headsets]], smart glasses typically overlay digital information onto the user's view of the real world.<ref>Azuma, R., Baillot, Y., Behringer, R., Feiner, S., Julier, S., & MacIntyre, B. (2001). Recent advances in augmented reality. IEEE Computer Graphics and Applications, 21(6), 34-47.</ref> They represent one of the most promising and challenging frontiers in the evolution of [[mixed reality]] technologies.

Smart glasses can function as wearable computers: they support wireless connectivity like [[Bluetooth]], [[Wi-Fi]], and [[GPS]], and can run self-contained [[mobile apps]] or connect to a [[smartphone]] for processing power and data.<ref>{{cite web|title=The Future of Augmented Reality is Here|url=https://www.materion.com/en/insights/blog/the-future-of-augmented-reality-is-here/|publisher=Materion|access-date=April 2025}}</ref> Some models accept voice input with [[speech recognition]] while others provide touch controls via side panels or use [[gesture recognition]] systems.

== History and development ==

==History and development==

The conceptual origins of head-worn displays trace back decades. In the 1960s, computer scientist [[Ivan Sutherland]] created the first head-mounted display system called "The Sword of Damocles" in 1968.<ref>Sutherland, I. E. (1968). A head-mounted three dimensional display. Proceedings of the December 9-11, 1968, Fall Joint Computer Conference, Part I, 757-764.</ref> While not specifically designed as eyewear, this pioneering work laid the foundation for future developments.

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Throughout the 2010s and early 2020s, numerous companies including [[Microsoft]], [[Epson]], [[Vuzix]], [[North]] (acquired by [[Google]]), [[Magic Leap]], [[Apple]], [[Meta]] (formerly Facebook), and various startups entered the smart glasses market with different approaches and technical solutions.<ref>Rauschnabel, P. A., Brem, A., & Ivens, B. S. (2015). Who will buy smart glasses? Empirical results of two pre-market-entry studies on the role of personality in individual awareness and intended adoption of Google Glass wearables. Computers in Human Behavior, 49, 635-647.</ref>

== Technology ==

==Technology==

===Hardware components===

=== Hardware components ===

Modern smart glasses typically incorporate several key hardware components:

* '''Optical ~~displays~~''' - Technologies for projecting images to the user's eyes

* '''[[Optical display]]s''' - Technologies for projecting images to the user's eyes

* '''Processing ~~units~~''' - Miniaturized computers that run applications and process data

* '''[[Processing unit]]s''' - Miniaturized computers that run applications and process data

* '''Cameras''' - For [[computer vision]], environmental sensing, and photography/video recording

* '''[[Cameras]]''' - For [[computer vision]], environmental sensing, and photography/video recording

* '''Microphones''' - For voice commands and audio recording

* '''Speakers''' or '''bone conduction audio''' - For sound delivery without blocking environmental audio

* '''Sensors''' - May include [[accelerometer]]s, [[gyroscope]]s, [[GPS]], [[magnetometer]]s, and light sensors

* '''[[Sensors]]''' - May include [[accelerometer]]s, [[gyroscope]]s, [[GPS]], [[magnetometer]]s, and light sensors

* '''Connectivity''' - [[Wi-Fi]], [[Bluetooth]], and sometimes cellular capabilities

* '''Input methods''' - Touch panels, buttons, voice recognition, or gesture tracking

* '''[[Input]] methods''' - Touch panels, buttons, voice recognition, or gesture tracking

* '''Battery''' - Power sources designed for minimal weight and size<ref>Pedersen, I., & Trueman, D. (2018). Engaging with Environmental Issues as a User of Smart Glasses: A Microcosmic View of the Societal Response to Emerging Technologies. Digital Culture & Society, 4(1), 143-158.</ref>

* '''[[Battery]]''' - Power sources designed for minimal weight and size<ref>Pedersen, I., & Trueman, D. (2018). Engaging with Environmental Issues as a User of Smart Glasses: A Microcosmic View of the Societal Response to Emerging Technologies. Digital Culture & Society, 4(1), 143-158.</ref>

~~=== Display technologies ===~~

===Display technologies===

Several display technologies are employed in smart glasses:

* '''Waveguide displays''' - Use optical waveguides to direct light from a projector to the user's eye, allowing for a transparent display that overlays digital content onto the real world. This technology is used in devices like the [[Microsoft HoloLens]] and [[Magic Leap]].<ref>Kress, B. C., & Starner, T. (2013). A review of head-mounted displays (HMD) technologies and applications for consumer electronics. Proceedings of SPIE, 8720, 87200A.</ref>

* '''[[Waveguide displays]]''' - Use optical waveguides to direct light from a projector to the user's eye, allowing for a transparent display that overlays digital content onto the real world. This technology is used in devices like the [[Microsoft HoloLens]] and [[Magic Leap]].<ref>Kress, B. C., & Starner, T. (2013). A review of head-mounted displays (HMD) technologies and applications for consumer electronics. Proceedings of SPIE, 8720, 87200A.</ref>

* '''Birdbath optical combiner''' - Uses curved mirrors to reflect projected images, allowing them to be superimposed on the view of the real world. This approach is used in some [[Vuzix]] products.<ref>Kress, B. C. (2020). Optical Architectures for Augmented-, Virtual-, and Mixed-Reality Headsets. SPIE Press.</ref>

* '''[[Birdbath optical combiner]]''' - Uses curved mirrors to reflect projected images, allowing them to be superimposed on the view of the real world. This approach is used in some [[Vuzix]] products.<ref>Kress, B. C. (2020). Optical Architectures for Augmented-, Virtual-, and Mixed-Reality Headsets. SPIE Press.</ref>

* '''Laser beam scanning''' - Projects images directly onto the retina using low-power lasers, as implemented in [[North Focals]] and some [[Intel Vaunt]] prototypes.<ref>Liao, S. (2018, February 5). Intel made smart glasses that look normal. The Verge.</ref>

* '''[[Laser beam scanning]]''' - Projects images directly onto the retina using low-power lasers, as implemented in [[North Focals]] and some [[Intel Vaunt]] prototypes.<ref>Liao, S. (2018, February 5). Intel made smart glasses that look normal. The Verge.</ref>

* '''[[Micro-LED]]''' or '''[[Micro-OLED]] displays''' - Provide high brightness and efficiency in a small form factor, important for daylight visibility. Used in newer smart glasses designs by several manufacturers.<ref>Kim, H., & Kwon, S. (2022). Review of micro-LED displays: from technology to applications. Journal of Information Display, 23(1), 1-14.</ref>

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* '''[[LCOS]] (Liquid Crystal on Silicon)''' - Reflective displays used in compact AR systems for high-resolution visuals.<ref>Kim, J. (2018). Advances in LCOS Technology for AR Displays. Journal of Display Technology, 14(2), 234-246.</ref>

* '''Holographic optical elements''' - Create holographic wavelength-selective mirrors that can be embedded in standard eyeglass lenses, potentially enabling thinner and lighter smart glasses.<ref>Lee, S., Jo, Y., Yoo, D., Cho, J., Lee, D., & Lee, B. (2019). Tomographic near-eye displays. Nature Communications, 10, 2497.</ref>

* '''[[Holographic optical elements]]''' - Create holographic wavelength-selective mirrors that can be embedded in standard eyeglass lenses, potentially enabling thinner and lighter smart glasses.<ref>Lee, S., Jo, Y., Yoo, D., Cho, J., Lee, D., & Lee, B. (2019). Tomographic near-eye displays. Nature Communications, 10, 2497.</ref>

~~=== Input methods ===~~

===Input methods===

Smart glasses employ various input methods to compensate for the lack of traditional keyboards and touchscreens:

* '''Voice ~~commands~~''' - Using built-in microphones and [[speech recognition]] technology

* '''[[Voice command]]s''' - Using built-in microphones and [[speech recognition]] technology

* '''Touch panels''' on the frame - Allowing for taps, swipes, and gestures

* '''Hand gesture recognition''' - Using cameras to track hand movements in the field of view

* '''[[Hand gesture recognition]]''' - Using cameras to track hand movements in the field of view

* '''Eye tracking''' - Detecting where the user is looking to enable gaze-based interactions

* '''[[Eye tracking]]''' - Detecting where the user is looking to enable gaze-based interactions

* '''Head movements''' - Using built-in motion sensors to detect deliberate head gestures

* '''Companion apps''' - Smartphone applications that connect to and control the glasses

* '''Neural ~~interfaces~~''' - Experimental systems detecting subtle facial muscle movements or neural signals<ref>Riva, G. (2019). Virtual reality in the treatment of eating disorders and obesity: State of the art and future challenges. Cyberpsychology: Journal of Psychosocial Research on Cyberspace, 13(1).</ref>

* '''[[Neural interface]]s''' - Experimental systems detecting subtle facial muscle movements or neural signals<ref>Riva, G. (2019). Virtual reality in the treatment of eating disorders and obesity: State of the art and future challenges. Cyberpsychology: Journal of Psychosocial Research on Cyberspace, 13(1).</ref>

~~=== Processors and Operating Systems ===~~

===Processors and Operating Systems===

Smart glasses typically use specialized processors designed for wearable devices:

* '''[[System-on-chip]] (SoC)''' - Optimized for power efficiency and small form factor

* '''Specialized processors''' - Like the [[Qualcomm]] Snapdragon XR series designed specifically for extended reality applications<ref>{{cite web |title=Qualcomm Snapdragon XR: Powering AR/VR |publisher=Qualcomm |access-date=2025-05-01}}</ref>

* '''Custom silicon''' - High-end devices like the Apple Vision Pro use custom chips (~~e.g.,~~ [[Apple M2]]) for enhanced performance<ref>{{cite web |title=Apple Vision Pro Technical Specifications |url=https://www.apple.com/apple-vision-pro/specs/ |publisher=Apple |access-date=2025-05-01}}</ref>

* '''Custom silicon''' - High-end devices like the Apple Vision Pro use custom chips (for example [[Apple M2]]) for enhanced performance<ref>{{cite web |title=Apple Vision Pro Technical Specifications |url=https://www.apple.com/apple-vision-pro/specs/ |publisher=Apple |access-date=2025-05-01}}</ref>

For operating systems:

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* Others function primarily as displays for connected devices, relying on the host device's processing power

== Types of Smart Glasses ==

==Types of Smart Glasses==

Smart glasses can be broadly categorized based on their primary functionality, though many models combine features:

=== Audio Glasses ===

===Audio Glasses===

Primarily function as [[headphones]], integrating speakers and microphones into standard eyeglass frames for music, calls, and voice assistant access. They typically lack a display.<ref~~>{{cite web|title~~=~~The Best Smart Glasses to Augment Your Reality|url=https://www.wired.com/gallery/best-smart-glasses/|publisher=Wired|access-date=April 2025}}<~~/~~ref~~> Examples include [[Amazon Echo Frames]] and [[Bose Frames]] (discontinued).

Primarily function as [[headphones]], integrating speakers and microphones into standard eyeglass frames for music, calls, and voice assistant access. They typically lack a display.<ref name="WiredBest" /> Examples include [[Amazon Echo Frames]] and [[Bose Frames]] (discontinued).

=== Camera Glasses ===

===Camera Glasses===

Feature integrated cameras for first-person photo and video capture, often syncing with a smartphone app for sharing, particularly on social media.<ref~~>{{cite web|title~~=~~The Best Smart Glasses to Augment Your Reality|url=https://www.wired.com/gallery~~/~~best-smart-glasses/|publisher=Wired|access-date=April 2025}}</ref~~> Examples include [[Ray-Ban Stories]]/[[Ray-Ban Meta]] and [[Snap Spectacles]].

Feature integrated [[cameras]] for first-person photo and video capture, often syncing with a smartphone app for sharing, particularly on social media.<ref name="WiredBest" /> Examples include [[Ray-Ban Stories]]/[[Ray-Ban Meta]] and [[Snap Spectacles]].

=== HUD/Display Glasses (Assisted Reality) ===

===HUD/Display Glasses (Assisted Reality)===

Project simple information like notifications, directions, or messages into the wearer's view, typically as a 2D overlay. They enhance awareness but may not interact deeply with the real world.<ref~~>{{cite web|title~~=~~The Best Smart Glasses to Augment Your Reality|url=https://www.wired.com/gallery/best-smart-glasses/|publisher=Wired|access-date=April 2025}}<~~/~~ref~~> Sometimes called "Assisted Reality" glasses. Examples include earlier versions of Vuzix glasses or specialized models for cycling.

Project simple information like notifications, directions, or messages into the wearer's view, typically as a 2D overlay. They enhance awareness but may not interact deeply with the real world.<ref name="WiredBest" /> Sometimes called "Assisted Reality" glasses. Examples include earlier versions of Vuzix glasses or specialized models for cycling.

=== Augmented/Mixed Reality Glasses ===

===Augmented/Mixed Reality Glasses===

Offer a more immersive experience by overlaying interactive digital content onto the real world, often using sensors and cameras to understand the environment (spatial mapping).<ref>Chatzopoulos, D., Bermejo, C., Huang, Z., & Hui, P. (2017). Mobile augmented reality survey: From where we are to where we go. IEEE Access, 5, 6917-6950.</ref> These range from enterprise-focused devices like [[Microsoft HoloLens]] and [[Magic Leap]] to consumer-oriented glasses aiming for virtual screen replacement or AR gaming. "True AR" glasses usually involve spatial awareness and interaction.

=== Virtual Screen Glasses ===

===Virtual Screen Glasses===

Primarily designed to function as a private, large virtual display for connected devices like smartphones, laptops, or game consoles, often used for media consumption or productivity.<ref~~>{{cite web|title~~=~~The Best Smart Glasses to Augment Your Reality|url=https://www.wired.com/gallery/best-smart-glasses/|publisher=Wired|access-date=April 2025}}<~~/~~ref~~> Examples include [[XREAL]] Air/One, [[Rokid]] Max, and [[Viture]] Pro XR.

Primarily designed to function as a private, large virtual display for connected devices like smartphones, laptops, or game consoles, often used for media consumption or productivity.<ref name="WiredBest" /> Examples include [[XREAL]] Air/One, [[Rokid]] Max, and [[Viture]] Pro XR.

=== Smart Sunglasses ===

===Smart Sunglasses===

Feature electronically adjustable tint (using [[liquid crystal]] technology or electrochromic panels) or incorporate other smart features like audio or cameras into a sunglass form factor.<ref>{{cite web|last=Irving|first=Michael|title=App-controlled smart sunglasses change tint on demand|url=https://newatlas.com/wearables/dusk-tint-smart-sunglasses-app-controlled/|publisher=New Atlas|date=January 6, 2021|access-date=April 2025}}</ref> For example, Ampere's Dusk has electrochromic lenses that can change from clear to dark under app control.

== Major products and manufacturers ==

==Major products and manufacturers==

===Google Glass===

=== Google Glass ===

[[Google Glass]] was one of the first widely recognized smart glasses products, announced in 2012 and released to "Explorers" in 2013. The original consumer-focused Google Glass featured a small prism display positioned above the right eye, a touchpad on the frame, voice command capability, and a front-facing camera. After facing challenges with privacy concerns and social acceptance, Google pivoted in 2015 to focus on enterprise applications with the Glass Enterprise Edition, followed by Glass Enterprise Edition 2 in 2019.<ref name="Miller2013" /><ref>Google. (2019, May 20). Glass Enterprise Edition 2: faster and more helpful. Google Blog.</ref> Sales of all Google Glass versions were ultimately suspended in March 2023.

[[Google Glass]] was one of the first widely recognized smart glasses products, announced in 2012 and released to "Explorers" in 2013. The original consumer-focused Google Glass featured a small prism display positioned above the right eye, a touchpad on the frame, voice command capability, and a front-facing camera. After facing challenges with privacy concerns and social acceptance, Google pivoted in 2015 to focus on enterprise applications with the Glass Enterprise Edition, followed by Glass Enterprise Edition 2 in 2019.<ref~~>Miller, C. C. (2013, February 20). Google Searches for Style. The New York Times.<~~/~~ref~~><ref>Google. (2019, May 20). Glass Enterprise Edition 2: faster and more helpful. Google Blog.</ref> Sales of all Google Glass versions were ultimately suspended in March 2023.

~~=== Microsoft HoloLens ===~~

===Microsoft HoloLens===

Microsoft introduced the [[HoloLens]] in 2015, with the HoloLens 2 following in 2019. Unlike many other smart glasses, the HoloLens is a self-contained [[holographic computer]] with sophisticated spatial mapping capabilities. It features transparent holographic lenses, multiple sensors for environment tracking, and natural gesture recognition. The HoloLens has primarily targeted enterprise, industrial, and medical applications rather than consumer use.<ref>Microsoft. (2019). Microsoft HoloLens 2. Microsoft.</ref>

=== Vuzix ===

===Vuzix===

[[Vuzix]] has produced several generations of smart glasses, including the M-Series for enterprise and the Blade for both enterprise and consumer applications. Their products typically feature displays that can show information in the user's field of view, cameras, microphones for voice commands, and compatibility with various software platforms. Vuzix has focused heavily on practical workplace applications.<ref>Vuzix. (2020). Vuzix Blade Upgraded Smart Glasses. Vuzix.</ref>

=== Snap Spectacles ===

===Snap Spectacles===

[[Snap Inc.]] (formerly Snapchat) released the first generation of [[Spectacles]] in 2016, primarily focusing on capturing first-person photos and videos for sharing on the Snapchat platform. Later generations have incorporated more advanced features, with the Spectacles 4 (announced in 2021) featuring true AR capabilities with dual waveguide displays and four built-in microphones.<ref>Snap Inc. (2021, May 20). Introducing the next generation of Spectacles. Snap Inc.</ref>

[[Snap Inc.]] (formerly Snapchat) released the first generation of Spectacles in 2016, primarily focusing on capturing first-person photos and videos for sharing on the Snapchat platform. Later generations have incorporated more advanced features, with the Spectacles 4 (announced in 2021) featuring true AR capabilities with dual waveguide displays and four built-in microphones.<ref>Snap Inc. (2021, May 20). Introducing the next generation of Spectacles. Snap Inc.~~</ref>~~

~~=== Ray-Ban Stories and Meta Smart Glasses ===~~

In 2021, [[Meta Platforms]] (formerly Facebook) partnered with [[EssilorLuxottica]] to release Ray-Ban Stories, smart glasses that feature dual cameras for photos and video, open-ear speakers, and microphones. These represent a step toward Meta's vision of augmented reality glasses, though they lack display capabilities for true AR. In 2023, this collaboration continued with the Ray-Ban Meta smart glasses, which added [[Meta AI]] capabilities.<ref>Meta. (2021, September 9). Introducing Ray-Ban Stories: First-Generation Smart Glasses. Meta.</ref><ref>{{cite web |title=Ray-Ban Meta Smart Glasses |url=https://www.ray-ban.com/usa/ray-ban-meta-smart-glasses |publisher=Meta |access-date=2025-05-01}}</ref>

=== ~~Apple Vision Pro~~ ===

===Ray-Ban Stories and Meta Smart Glasses===

In 2021, [[Meta Platforms]] (formerly Facebook) partnered with [[EssilorLuxottica]] to release [[Meta Ray-Ban|Ray-Ban Stories]], smart glasses that feature dual cameras for photos and video, open-ear speakers, and microphones. These represent a step toward Meta's vision of augmented reality glasses, though they lack display capabilities for true AR. In 2023, this collaboration continued with the Ray-Ban Meta smart glasses, which added [[Meta AI]] capabilities.<ref>Meta. (2021, September 9). Introducing Ray-Ban Stories: First-Generation Smart Glasses. Meta.</ref><ref>{{cite web |title=Ray-Ban Meta Smart Glasses |url=https://www.ray-ban.com/usa/ray-ban-meta-smart-glasses |publisher=Meta |access-date=2025-05-01}}</ref>

===Apple Vision Pro====

Although not traditional smart glasses, the [[Apple Vision Pro]] announced in 2023 represents Apple's first major entry into the head-mounted display market. It is positioned as a "spatial computer" that blends aspects of augmented and virtual reality. Apple has reportedly also been developing true smart glasses with a more conventional form factor.<ref>Apple. (2023, June 5). Apple unveils Apple Vision Pro: Revolutionary spatial computer that seamlessly blends digital content with the physical world. Apple Newsroom.</ref>

=== Smaller manufacturers and specialized products ===

===Smaller manufacturers and specialized products===

Numerous other companies have developed smart glasses for various purposes:

* '''North''' (acquired by Google in 2020) created Focals, consumer-oriented smart glasses with a holographic display

* '''[[North]]''' (acquired by Google in 2020) created Focals, consumer-oriented smart glasses with a holographic display

* '''Epson''' produces the Moverio line, used for both consumer and enterprise applications

* '''[[Epson]]''' produces the Moverio line, used for both consumer and enterprise applications

* '''TCL''' introduced the NXTWEAR G and subsequent models as wearable display glasses

* '''[[TCL]]''' introduced the NXTWEAR G and subsequent models as wearable display glasses

* '''[[XREAL]]''' (formerly Nreal) offers light mixed reality glasses that connect to smartphones

* '''Lenovo''' developed the ThinkReality A3 smart glasses for enterprise use

* '''[[Lenovo]]''' developed the ThinkReality A3 smart glasses for enterprise use

* '''Oppo''' introduced Air Glass as a lightweight AR assistant device

* '''[[Oppo]]''' introduced Air Glass as a lightweight AR assistant device

* '''Rokid''' produces the Max and AR Lite series for various applications

* '''[[Rokid]]''' produces the Max and AR Lite series for various applications

* '''Viture''' offers the Pro XR for virtual display functionality

* '''[[Viture]]''' offers the Pro XR for virtual display functionality

* '''Amazon''' makes the Echo Frames, focused on audio and voice assistant features<ref>Goode, L. (2022, January 4). Smart glasses made Google look dumb. Now Facebook is giving them a go. Wired.</ref><ref>{{cite web |title=Amazon Echo Frames (3rd Gen) |publisher=Amazon |access-date=2025-05-01}}</ref>

* '''[[Amazon]]''' makes the Echo Frames, focused on audio and voice assistant features<ref>Goode, L. (2022, January 4). Smart glasses made Google look dumb. Now Facebook is giving them a go. Wired.</ref><ref>{{cite web |title=Amazon Echo Frames (3rd Gen) |publisher=Amazon |access-date=2025-05-01}}</ref>

~~== Applications ==~~

~~=== Consumer applications ===~~

==Applications==

===Consumer applications===

Smart glasses for consumers typically focus on several key use cases:

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* '''Entertainment''' - Gaming, video viewing, and other entertainment applications<ref>Rauschnabel, P. A. (2018). Virtually enhancing the real world with holograms: An exploration of expected gratifications of using augmented reality smart glasses. Psychology & Marketing, 35(8), 557-572.</ref>

=== Enterprise and industrial applications ===

===Enterprise and industrial applications===

The enterprise sector has seen strong adoption of smart glasses for various applications:

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* '''Construction & Safety''' - Highlighting potential hazards, displaying blueprints, and providing safety alerts<ref>{{cite web |title=Smart Glasses in Construction: Applications and Benefits |publisher=Construction Business Owner |access-date=2025-05-01}}</ref>

=== Security applications ===

===Security applications===

Smart glasses have been tested and deployed in security and law enforcement contexts:

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* '''Access control''' - Providing security personnel with real-time information about authorized individuals

=== Medical applications ===

===Medical applications===

Smart glasses have found specific applications in healthcare settings:

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* '''Specialized care''' - Novel applications like using Google Glass to provide hands-free lactation coaching for new mothers<ref>{{cite web|last=Papple|first=Dawn|title=Google Glass Connects Breastfeeding Moms With Lactation Help|url=http://www.inquisitr.com/1224638/google-glass-connects-breastfeeding-moms-with-lactation-help/|publisher=Inquisitr|date=April 24, 2014|access-date=April 2025}}</ref>

=== Marketing and Retail ===

===Marketing and Retail===

Smart glasses are being used to transform shopping and brand experiences:

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* '''Enhanced Event Marketing''' - Creating immersive brand experiences at trade shows and events<ref>Tom Dieck, M. C. (2020). Augmented Reality in Retail. Journal of Retailing and Consumer Services, 55, 102041.</ref>

== Challenges and limitations ==

==Challenges and limitations==

Despite their potential, smart glasses face several significant challenges:

=== Technical challenges ===

===Technical challenges===

* '''Power consumption''' - Balancing battery life with processing power, display brightness, and form factor constraints

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* '''Weight distribution''' - Creating comfortable devices that can be worn for extended periods<ref>Makhataeva, Z., & Varol, H. A. (2020). Augmented Reality for Robotics: A Review. Robotics, 9(2), 21.</ref>

=== Social and ethical challenges ===

===Social and ethical challenges===

* '''Privacy concerns''' - The presence of cameras and recording capabilities raises significant privacy issues for both users and bystanders. The early Google Glass faced substantial backlash due to its always-on camera, prompting stricter privacy regulations<ref>Hong, J. (2016). Privacy Issues in Wearable Technology. IEEE Security & Privacy, 14(6), 25-33.</ref>

* '''Social acceptance''' - The conspicuous nature of many smart glasses designs can create social barriers, leading to terms like "[[Glasshole]]s" for early Google Glass wearers<ref>{{cite web|last=Eveleth|first=Rose|title=Google Glass Wasn't a Failure. It Raised Crucial Concerns|url=https://www.wired.com/story/google-glass-reasonable-expectation-of-privacy/|publisher=Wired|date=December 12, 2018|access-date=April 2025}}</ref>

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* '''Digital divide''' - The cost of smart glasses may limit access to their benefits<ref>Hein, D. W. E., Jodoin, J. L., Rauschnabel, P. A., & Ivens, B. S. (2018). Are wearables good or bad for society?: An exploration of societal benefits, risks, and consequences of augmented reality smart glasses. In Mobile Technologies and Augmented Reality in Open Education (pp. 1-13). IGI Global.</ref>

== Future developments ==

==Future developments==

The smart glasses industry continues to evolve with several key trends:

=== Form factor improvements ===

===Form factor improvements===

Manufacturers are working toward smart glasses that more closely resemble conventional eyewear in size, weight, and appearance. Advances in miniaturization of components, flexible electronics, and lightweight materials are gradually enabling less conspicuous designs.<ref>Starner, T. (2015). How wearables worked their way into the mainstream. IEEE Pervasive Computing, 14(3), 10-13.</ref>

=== Display technology advancements ===

===Display technology advancements===

Emerging display technologies like [[microLED]], advanced waveguides, and holographic optical elements promise improvements in brightness, field of view, power efficiency, and form factor. These developments may eventually enable full-color, high-resolution AR overlays in normal-looking eyewear.<ref>Bohn, D. (2020, January 17). The display of the future might be in your contact lens. The Verge.</ref>

=== Enhanced sensing and contextual awareness ===

===Enhanced sensing and contextual awareness===

Future smart glasses will likely incorporate more sophisticated environmental sensing, object recognition, and contextual understanding capabilities. This contextual awareness will enable more intuitive and useful augmented reality experiences that can anticipate user needs.<ref name="Chatzopoulos2017" />

Future smart glasses will likely incorporate more sophisticated environmental sensing, object recognition, and contextual understanding capabilities. This contextual awareness will enable more intuitive and useful augmented reality experiences that can anticipate user needs.<ref~~>Chatzopoulos, D., Bermejo, C., Huang, Z., & Hui, P. (2017). Mobile augmented reality survey: From where we are to where we go. IEEE Access, 5, 6917-6950.<~~/~~ref~~>

~~=== Integration with other technologies ===~~

===Integration with other technologies===

Smart glasses are increasingly being developed as part of broader ecosystems:

* '''Integration with [[artificial intelligence]]''' - Enabling more sophisticated contextual awareness and predictive capabilities. On-device AI, powered by chips like the Qualcomm Snapdragon XR, will enable real-time language translation, object recognition, and personalized experiences<ref~~>{{cite web |title=Qualcomm Snapdragon XR: Powering AR/VR |publisher~~=~~Qualcomm |access-date=2025-05-01}}<~~/~~ref~~>

* '''Integration with [[aiwiki:Artificial Intelligence|artificial intelligence]]''' - Enabling more sophisticated contextual awareness and predictive capabilities. On-device AI, powered by chips like the Qualcomm Snapdragon XR, will enable real-time language translation, object recognition, and personalized experiences<ref name="QualcommXR" />

* '''Connection with [[Internet of Things]]''' devices - Allowing control and monitoring of smart home and workplace equipment

* '''[[5G]] connectivity''' - Enabling faster data transfer and potential cloud processing of AR content

* '''Integration with [[spatial computing]]''' environments - Creating seamless transitions between physical and digital spaces<ref>Kunze, K., Uema, Y., Shiga, K., Ishimaru, S., Kise, K., & Freitas, D. D. P. (2023). Towards Enhancing Human Capabilities Through Wearable Computing. Computer, 56(6), 70-80.</ref>

=== Market growth ===

===Market growth===

Market projections estimate the global smart glasses market to reach $7.2 billion by 2028, driven by both consumer and enterprise demand.<ref>{{cite web |title=Smart Glasses Market Size & Share Analysis |publisher=MarketsandMarkets |date=2023-08-01 |access-date=2025-05-01}}</ref> The adoption of smart glasses is expected to accelerate as devices become more powerful, comfortable, and socially acceptable.

=== Specialized applications ===

===Specialized applications===

As the technology matures, increasingly specialized applications of smart glasses are emerging in fields such as:

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* '''Sports and athletics''' - Offering real-time performance data and coaching<ref>Tom Dieck, M. C., Jung, T. H., & Han, D. I. (2022). Augmented reality smart glasses in tourism: Applications and user experience. Journal of Destination Marketing & Management, 23, 100662.</ref>

== See also ==

==See also==

* [[Augmented reality]]

* [[Virtual reality]]

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* [[Internet of Things]]

== References ==

==References==

<ref name="WiredBest">Wired. The Best Smart Glasses to Augment Your Reality. https://www.wired.com/gallery/best-smart-glasses/ (Accessed Apr 2025).</ref>

<ref name="Miller2013">Miller C. C. (2013‑02‑20). Google Searches for Style. ''The New York Times''. https://www.nytimes.com/2013/02/21/technology/google-brings-a-fashionable-touch-to-tech.html</ref>

<ref name="Chatzopoulos2017">Chatzopoulos D., Bermejo C., Huang Z., & Hui P. (2017). Mobile augmented reality survey. ''IEEE Access'', 5, 6917‑6950.</ref>

<ref name="QualcommXR">Qualcomm. Snapdragon XR – Extended Reality Platform. https://www.qualcomm.com/products/mobile/snapdragon/xr-vr-ar (Accessed May 2025).</ref>

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[[Category:Technical Terms]]

[[Category:AR Device Types]]

[[Category:Technology]]

[[Category:Wearable Technology]]

[[Category:Augmented Reality]]

[[Category:Computing Devices]]

[[Category:Consumer Electronics]]

[[Category:Emerging Technologies]]

[[Category:Mixed Reality]]

[[Category:Display Technology]]

[[Category:Head-mounted Displays]]

[[Category:Virtual Reality]]

[[Category:Mobile Computing]]