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Wikitude

Apps using Wikitude

Download a list of all 1K Wikitude customers with contacts.

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App Installs Publisher Publisher Email Publisher Social Publisher Website
10M Nike, Inc. *****@nike.com
facebook twitter instagram
https://www.nike.com/nikestudios
6M Victoria's Secret Store Brand Management Inc. *****@LimitedBrands.com - http://pink.victoriassecret.com/
4M Mediarex Enterprises Limited *****@chiliz.com
linkedin facebook twitter instagram
https://www.socios.com/
3M CTBC Bank *****@ctbcbank.com
linkedin
http://www.ctbcbank.com/
1M 臺北市政府 *****@gmail.com
facebook
https://police.gov.taipei/
1M Kinepolis Group N.V. *****@speakap.com
facebook instagram
http://www.kinepolis.com/
1M Banco Nacional de Costa Rica *****@bncr.fi.cr
facebook twitter
https://www.bncr.fi.cr/
1M Commercial Bank of Qatar *****@cbq.qa
linkedin facebook twitter instagram
https://www.cbq.qa/
1M Groupe Quick *****@quick.fr
linkedin twitter instagram
http://www.quick.fr/
1M Nike, Inc. *****@nike.com
facebook twitter instagram
https://www.nike.com/nikestudios

Full list contains 1K apps using Wikitude in the U.S, of which 886 are currently active and 166 have been updated over the past year, with publisher contacts included.

List updated on 21th August 2024

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Overview: What is Wikitude?

Wikitude is a powerful and versatile augmented reality (AR) software development kit (SDK) that enables developers to create immersive and interactive AR experiences for mobile applications. Founded in 2008, Wikitude has established itself as a leading provider of AR technology, offering a comprehensive suite of tools and features for both beginners and experienced developers alike. The Wikitude SDK supports a wide range of platforms, including iOS, Android, and Unity, making it an ideal choice for cross-platform development projects. One of the key strengths of the Wikitude SDK is its robust image recognition and tracking capabilities. Developers can easily incorporate image targets into their AR applications, allowing users to trigger interactive content by scanning real-world objects or printed materials. This functionality opens up numerous possibilities for marketing campaigns, educational tools, and interactive product packaging. In addition to image recognition, Wikitude offers advanced geolocation-based AR features. This allows developers to create location-aware applications that can display relevant information or virtual content based on the user's physical location. Such capabilities are particularly useful for tourism apps, navigation systems, and location-based games. The Wikitude SDK also supports 3D model rendering and tracking, enabling developers to seamlessly integrate virtual 3D objects into the real world. This feature is especially valuable for applications in industries such as architecture, interior design, and product visualization. Users can visualize and interact with 3D models in their physical environment, providing a more immersive and engaging experience. Another notable aspect of the Wikitude SDK is its support for markerless AR tracking. This advanced technology allows for the detection and tracking of real-world objects without the need for predefined markers or images. This opens up new possibilities for creating AR experiences that can adapt to and interact with the user's surroundings in real-time. Wikitude's commitment to staying at the forefront of AR technology is evident in its continuous updates and improvements. The SDK regularly incorporates new features and optimizations to enhance performance and expand its capabilities. This includes support for the latest AR frameworks, such as Apple's ARKit and Google's ARCore, ensuring that developers can leverage the most cutting-edge AR technologies in their applications. For developers looking to streamline their AR development process, Wikitude offers a cloud-based content management system called Studio. This platform allows for easy creation, management, and deployment of AR content without the need for extensive coding knowledge. Studio's user-friendly interface makes it accessible to non-technical team members, facilitating collaboration between designers and developers.

Wikitude Key Features

  • Wikitude is a comprehensive augmented reality (AR) software development kit (SDK) that enables developers to create immersive AR experiences for mobile applications and web browsers.
  • The SDK supports both marker-based and markerless AR, allowing for the recognition and tracking of images, objects, and scenes in the real world.
  • Wikitude offers cross-platform compatibility, supporting development for iOS, Android, and web-based applications, as well as popular development frameworks like Unity, Cordova, and Xamarin.
  • The SDK includes advanced computer vision algorithms for precise tracking and recognition, enabling accurate placement of virtual content in the real world.
  • Wikitude provides a cloud recognition service, allowing developers to store and manage large image databases for marker-based AR experiences.
  • The SDK offers SLAM (Simultaneous Localization and Mapping) technology for creating persistent AR experiences and enabling multi-user interactions in shared spaces.
  • Wikitude supports geolocation-based AR, allowing developers to create location-aware experiences that overlay virtual content based on GPS coordinates.
  • The SDK includes a powerful 3D engine for rendering high-quality 3D models and animations in augmented reality scenes.
  • Wikitude offers support for both native and JavaScript APIs, providing flexibility for developers to choose their preferred programming language and development environment.
  • The SDK includes built-in support for gesture recognition, enabling intuitive user interactions with virtual content through touch, swipe, and pinch gestures.
  • Wikitude provides a comprehensive set of tools for measuring and optimizing AR experiences, including performance monitoring and analytics.
  • The SDK offers seamless integration with popular 3D modeling software, making it easy to import and use custom 3D assets in AR applications.
  • Wikitude includes support for occlusion, allowing virtual objects to be realistically obscured by real-world objects in the camera view.
  • The SDK provides built-in support for AR content management, enabling developers to easily update and manage AR experiences remotely.
  • Wikitude offers extensive documentation, tutorials, and sample projects to help developers quickly get started with AR development and learn best practices.
  • The SDK includes support for extended tracking, allowing AR experiences to continue even when the initial marker or target is no longer in view.
  • Wikitude provides built-in support for AR-based navigation and wayfinding, enabling developers to create indoor and outdoor navigation experiences.
  • The SDK offers integration with popular mobile sensors, such as accelerometers and gyroscopes, for enhanced AR tracking and user interaction.
  • Wikitude includes support for instant tracking, allowing developers to create AR experiences that can be initiated without the need for pre-defined markers or targets.
  • The SDK provides built-in support for AR-based measurements, enabling developers to create applications for accurate distance and volume calculations in the real world.

Wikitude Use Cases

  • Wikitude is an augmented reality (AR) software development kit (SDK) that enables developers to create immersive AR experiences for mobile applications, with use cases spanning various industries and applications.
  • In the retail sector, Wikitude can be used to create interactive product catalogs, allowing customers to visualize furniture or home decor items in their own spaces before making a purchase, enhancing the shopping experience and reducing returns.
  • For tourism and travel, Wikitude can power location-based AR guides, providing visitors with real-time information about landmarks, historical sites, and points of interest as they explore a new city or attraction.
  • In education, Wikitude can be utilized to develop interactive learning materials, such as AR-enhanced textbooks that bring static images to life, making complex concepts more engaging and easier to understand for students.
  • The automotive industry can leverage Wikitude to create AR manuals and maintenance guides, allowing car owners or technicians to visualize repair procedures and part locations in real-time, improving efficiency and accuracy.
  • In the field of architecture and construction, Wikitude can be used to create AR visualizations of building projects, enabling stakeholders to view 3D models of structures in their intended locations before construction begins.
  • For marketing and advertising, Wikitude can power AR-enhanced promotional materials, such as interactive print ads or product packaging that comes to life when scanned with a smartphone, increasing engagement and brand awareness.
  • In the healthcare sector, Wikitude can be used to develop AR applications for medical training, allowing students to visualize complex anatomical structures or practice surgical procedures in a realistic, interactive environment.
  • For industrial applications, Wikitude can be employed to create AR-assisted maintenance and repair systems, providing workers with step-by-step instructions and real-time guidance for complex machinery or equipment.
  • In the entertainment industry, Wikitude can be used to develop AR-enhanced games and experiences, such as location-based treasure hunts or interactive storytelling applications that blend the real world with virtual elements.
  • For museums and cultural institutions, Wikitude can power AR exhibits that bring artifacts and artworks to life, providing visitors with additional context and information through interactive displays.
  • In the field of real estate, Wikitude can be utilized to create virtual property tours, allowing potential buyers to visualize properties and explore different design options before making a purchase decision.
  • For event planning and management, Wikitude can be used to develop AR-enhanced navigation and information systems, helping attendees locate specific booths, sessions, or amenities at large conferences or trade shows.
  • In the fashion industry, Wikitude can power virtual try-on experiences, allowing customers to visualize how clothing or accessories would look on them without physically trying them on, enhancing the online shopping experience.
  • For fitness and wellness applications, Wikitude can be used to create AR-assisted workout routines, providing users with real-time guidance on proper form and technique for various exercises.
  • In the field of urban planning, Wikitude can be employed to visualize proposed developments or infrastructure projects, allowing city planners and residents to see how new buildings or roads would impact their communities.
  • For emergency services, Wikitude can be used to develop AR-enhanced navigation and information systems, helping first responders quickly locate hazards, access points, or critical infrastructure during emergency situations.
  • In the field of agriculture, Wikitude can power AR applications for crop management, allowing farmers to visualize soil conditions, pest infestations, or irrigation needs in real-time as they walk through their fields.
  • For libraries and research institutions, Wikitude can be used to create interactive AR catalogs, helping users locate books or resources within the physical space and providing additional information about available materials.
  • In the automotive industry, Wikitude can be employed to develop AR-enhanced heads-up displays for vehicles, providing drivers with real-time navigation, traffic information, and safety alerts without taking their eyes off the road.

Alternatives to Wikitude

  • ARCore: Developed by Google, ARCore is a popular augmented reality SDK that enables developers to create immersive AR experiences for Android devices. It offers features like motion tracking, environmental understanding, and light estimation, allowing for seamless integration of virtual objects into the real world.
  • Vuforia: A widely-used augmented reality platform, Vuforia offers a comprehensive set of tools for developing AR applications across various devices and operating systems. It provides robust image recognition capabilities, object tracking, and supports both marker-based and markerless AR experiences.
  • ARKit: Apple's ARKit is a powerful AR development framework designed specifically for iOS devices. It leverages the device's camera and motion sensors to provide accurate tracking and scene understanding, enabling developers to create sophisticated AR applications for iPhones and iPads.
  • EasyAR: A cross-platform AR SDK, EasyAR offers a range of features including image tracking, 3D object tracking, and SLAM (Simultaneous Localization and Mapping) technology. It supports multiple development environments and provides both free and paid versions to cater to different project requirements.
  • Kudan: Kudan offers an AR SDK that focuses on providing high-performance tracking and mapping capabilities. It utilizes computer vision algorithms to enable markerless AR experiences and supports both mobile and desktop platforms.
  • ARToolKit: An open-source AR tracking library, ARToolKit has been widely used for developing AR applications across various platforms. While it is no longer actively maintained, it remains a popular choice for developers looking for a free and customizable AR solution.
  • Maxst: Maxst offers a comprehensive AR SDK that includes features like image tracking, 3D object tracking, and SLAM technology. It supports multiple platforms and provides tools for creating both marker-based and markerless AR experiences.
  • DeepAR: Specializing in face tracking and augmented reality for facial features, DeepAR offers a unique SDK for creating face filters, masks, and other facial AR effects. It is particularly popular for social media and entertainment applications.
  • 8th Wall: A web-based AR platform, 8th Wall enables developers to create AR experiences that run directly in web browsers without the need for additional applications. It supports both marker-based and markerless AR and works across various devices and operating systems.
  • Zappar: Zappar provides an easy-to-use AR SDK that focuses on simplifying the AR development process. It offers features like image and face tracking, as well as world tracking for creating immersive AR experiences across multiple platforms.
  • ARCore: Google's ARCore is a robust augmented reality SDK that enables developers to create immersive AR experiences for Android devices. It offers features such as motion tracking, environmental understanding, and light estimation, allowing for seamless integration of virtual objects into the real world.
  • Vuforia: A widely-used augmented reality platform, Vuforia provides a comprehensive set of tools for developing AR applications across various devices and operating systems. It offers robust image recognition capabilities, object tracking, and supports both marker-based and markerless AR experiences.
  • ARKit: Apple's ARKit is a powerful AR development framework designed specifically for iOS devices. It leverages the device's camera and motion sensors to provide accurate tracking and scene understanding, enabling developers to create sophisticated AR applications for iPhones and iPads.
  • EasyAR: A cross-platform AR SDK, EasyAR offers a range of features including image tracking, 3D object tracking, and SLAM (Simultaneous Localization and Mapping) technology. It supports multiple development environments and provides both free and paid versions to cater to different project requirements.
  • Kudan: Kudan offers an AR SDK that focuses on providing high-performance tracking and mapping capabilities. It utilizes computer vision algorithms to enable markerless AR experiences and supports both mobile and desktop platforms.
  • ARToolKit: An open-source AR tracking library, ARToolKit has been widely used for developing AR applications across various platforms. While it is no longer actively maintained, it remains a popular choice for developers looking for a free and customizable AR solution.
  • Maxst: Maxst offers a comprehensive AR SDK that includes features like image tracking, 3D object tracking, and SLAM technology. It supports multiple platforms and provides tools for creating both marker-based and markerless AR experiences.
  • DeepAR: Specializing in face tracking and augmented reality for facial features, DeepAR offers a unique SDK for creating face filters, masks, and other facial AR effects. It is particularly popular for social media and entertainment.

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