Key Features and Pros & Cons of Rokid Glass 2

Key Features:

Immersive Augmented Reality: The standout feature of Rokid Glass 2 is its ability to deliver immersive augmented reality experiences. Through its integrated display, users can overlay digital information onto their real-world surroundings. This opens up a wide range of applications, from navigation and remote assistance to interactive entertainment and education.

Gesture Recognition: Rokid Glass 2 employs advanced gesture recognition technology, enabling users to interact with the device using simple hand movements. This intuitive interface minimizes the need for physical touch or voice commands, making it a practical solution for scenarios where such interactions may not be feasible or appropriate.

High-Quality Optics: The device boasts high-quality optics that provide clear visuals and reduce eye strain, essential for extended usage. The display resolution ensures that digital elements seamlessly blend with the real world, creating a more natural and engaging AR experience.

Powerful Processing: Equipped with a powerful processor, the Rokid Glass 2 can handle complex AR tasks with ease. This processing capability is crucial for real-time object recognition, spatial mapping, and rendering of interactive content.

Connectivity: The smart glasses offer a range of connectivity options, including Wi-Fi and Bluetooth, enabling seamless integration with other devices. This connectivity is pivotal for accessing online content, receiving real-time updates, and staying connected with other users.

Pros:

Hands-Free Convenience: One of the primary advantages of Rokid Glass 2 is its hands-free operation. Users can access information, navigate, and perform tasks without the need to constantly handle their smartphones or other devices.

Enhanced Productivity: The device has the potential to enhance productivity across various industries. Professionals can use it for remote collaboration, on-the-job training, and accessing crucial information without interrupting their workflow.

Innovative Learning: The education sector can benefit from Rokid Glass 2 by enabling interactive and immersive learning experiences. Complex concepts can be visualized, and historical events can be recreated, making learning more engaging and memorable.

Real-Time Assistance: The device’s ability to connect users with remote experts in real-time can be a game-changer for fields such as technical support, healthcare, and maintenance. Experts can guide on-site personnel through tasks by overlaying instructions on their live view.

Cons:

Limited Battery Life: Like many wearable devices, battery life can be a limitation. Extended usage of the AR features can drain the battery quickly, requiring frequent recharging.

Privacy Concerns: As with any device that captures and processes data, privacy concerns arise. The camera and sensors on the smart glasses could potentially raise questions about data security and user consent.

Social Acceptance: The adoption of wearable AR devices like Rokid Glass 2 might be hindered by social acceptance factors. Wearing such glasses in public spaces could be perceived as intrusive or distracting, affecting their widespread use.

Content Availability: The full potential of Rokid Glass 2 relies on the availability of AR content and applications. If developers don’t create engaging and useful applications, users might not fully realize the device’s capabilities.

With AR Lite, Rokid presents a combination of lightweight AR headset and compact host unit designed to enable spatial computing. The post New Rokid Max 2 AR glasses with seamless diopter adjustment introduced appeared first on MIXED Reality News. #AR #VR #Metaverse

Apple Vision Pro: A Missed Opportunity in the World of Smart Glasses

The Rise of Smart Glasses and the Failure of Apple's Vision Pro

Apple's Vision Pro was hailed as a game changer in the world of smart glasses. With cutting-edge technology, premium materials, and seamless integration with the Apple ecosystem, it seemed poised for success. However, the reality fell short of expectations, leaving many to question the future of spatial computing.

While Apple has excelled in creating user-friendly devices like the iPod, iPhone, and iPad, the Vision Pro proved to be overly complex and cumbersome. In an industry that values simplicity, Apple's ambitious design and lack of user-friendly features ultimately led to its downfall.

Keep it Simple, Stupid (KISS)

Apple's design philosophy of "keeping it simple, stupid" has been successful in the past. The iPod, iPhone, and iPad all offered intuitive user experiences that required minimal effort to navigate. However, the Vision Pro pushed the boundaries of simplicity with its complex features and interactions.

While the concept of using subtle finger gestures and eye movements for interaction seemed intuitive, the need to scan faces, calibrate fingers, and perform awkward gestures created a steep learning curve for users. Additionally, the Vision Pro's weight and lack of comfort made it impractical for extended use.

The Rise of Smart Glasses

While the Vision Pro failed to deliver on its promises, smart glasses as a whole are gaining traction in the tech industry. Lightweight, easy to use, and unobtrusive, smart glasses offer a more practical and comfortable augmented reality (AR) experience.

One example of successful smart glasses is the Solos AirGo 3. These glasses provide a seamless AR experience, with features like ChatGPT integration and a 120-inch projection display. They offer a glimpse into the potential of smart glasses and their ability to replace traditional monitors.

Rokid's AR Lite Suite: A Promising Alternative

Among the latest advancements in smart glasses is Rokid's AR Lite Suite. This suite includes the Rokid Max 2 AR smart glasses and the Rokid Station 2 host unit, which powers expanded AR functions.

The AR Lite Suite offers multi-screen support for AR windows up to 300 inches in size, picture stabilization for on-the-go use, wireless screen casting, and Bluetooth connectivity. The lightweight Rokid Max 2 glasses feature non-destructive Diopter adjustment, a high-quality display, and open-ear audio for an immersive experience.

While Apple's Vision Pro fell short of expectations, the future of smart glasses remains promising. The failure of the Vision Pro highlights the importance of simplicity and user-friendly design in the world of wearable technology. As the industry continues to evolve, it's clear that smart glasses will play a significant role in the future of augmented reality.

Rokid's AR Lite Suite is just one example of the advancements being made in this field, and it's likely that other tech giants will follow suit. The potential for condensed VR/AR headsets in a more comfortable and practical form factor is on the horizon. Smart glasses are here to stay, and the possibilities are endless.

Hands-on with Rokid's more affordable and lighter Vision Pro alternative [ Apple ]

Hands-on with Rokid’s more affordable and lighter Vision Pro alternative [Highlights] Rokid’s new AR glasses and computing box combine to offer a spatial computing experience that can approximate what the Vision Pro does. Rokid AR Lite is a new smart glasses package that includes Rokid Max 2 smart glasses and a Rokid Station 2 compute module. With AR Lite, Rokid presents a combination of…

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Unveiling the Future: Exploring the Best AR Glasses at Nexus Tech International

The world of Augmented Reality (AR) is rapidly evolving, blurring the lines between the physical and digital realms. At Nexus Tech International, we're at the forefront of this exciting technology, offering a diverse selection of the best AR glasses to empower individuals and businesses alike.

Unveiling Possibilities:

Before diving into specific models, let's explore the variety of applications AR glasses offer:

Enhanced Productivity: Imagine having vital information overlaid on your field of vision, improving efficiency in tasks like engineering, maintenance, and even surgery.

Immersive Entertainment: Witness the transformation of your living room into a virtual playground or lose yourself in interactive games with unparalleled depth.

Revolutionized Communication: Imagine collaborating with colleagues in a virtual space or having real-time language translations appear seamlessly before your eyes.

Nexus Tech's Top Picks:

Now, let's delve into some of the top AR glasses available at Nexus Tech:

For the Business Professional:

Google Glass Enterprise Edition 2: This robust and versatile option seamlessly integrates with existing workflows, boosting productivity and collaboration.

Vuzix Blade Upgraded: Offering a wider field of view and improved processing power, these glasses are ideal for hands-free information access and remote assistance.

For the Entertainment Enthusiast:

Rokid Max: Experience stunning visuals and a comfortable design perfect for gaming, watching movies, and exploring virtual worlds.

Ray-Ban Stories: Merging iconic style with subtle AR features, these glasses allow you to capture photos and videos hands-free, adding a unique layer to your social experiences.

Beyond the Product:

At Nexus Tech, we understand the importance of personalized guidance. Our team of experts is dedicated to helping you find the perfect AR glasses that suit your specific needs and budget. We offer comprehensive consultations, ensuring you make an informed decision that unlocks the full potential of AR technology.

Join the AR Revolution:

The future is augmented, and Nexus Tech International is here to guide you on your journey. Visit us today to explore the latest AR glasses and discover how they can transform the way you work, play, and connect.

 Rokid Max Anti-slip Strap- Giving you a very pleasing hearing experience for both adults and kids

The anti-slip strap of Rokid Max has a fully adjustable length of 23-40 cm to ensure a snug fit around the head meeting the needs of different people. Rokid Max Anti-slip strap is suitable for both kids and adults.  The best thing about the Rokid Max Anti-slip strap is that the glasses do not fall or slide down the nose when someone is bending their back, especially for outdoor activities. You can use the Rokid Max Anti-slip strap as a neck strap, which will allow you to hang your glasses. These anti-slip straps are very comfortable to wear because they are made of premium nylon belts, which are slim and elastic and not easy to deform. You can wear the Rokid Max Anti-slip strap even when you are lying down without even feeling uncomfortable. Rokid Max Anti-slip strap is very easy to use because both ends of this anti-slip strap is made of 2 silicon sleeve which is used to attach the glass leg ends.        

CES 2021 | Top 20

32EP950 UltraFine OLED Pro Monitor (RGB subpixel structure) by LG Electronics

Soundbeamer 1.0 by Noveto

JZ2000 OLED TV by Panasonic

Illuminarium Experiences (360-degree Immersive Experience)

VP3286-8K 32” ColorPro Monitor (with TB3) by ViewSonic

ThinkReality A3 Smart Glasses by Lenovo

ZenBook Pro Duo 15 OLED Laptop by ASUS

Nighthawk RAXE500 Wifi 6E Router by Netgear

HDMI Cable Power Specification by HDMI Forum

DisplayPort 2.0 (8K) Specification by VESA

NUC 11 Enthusiast, codenamed “Phantom Canyon” (with RTX 2060) by Intel

G1 Gallery Series OLED evo TV by LG Electronics

Magnit MicroLED by LG Electronics

Signature 8K OLED TV by LG Electronics

Lume Pad Creators Edition by Leia

Yoga AIO 7 All-in-One Desktop PC by Lenovo

Ambient Mode+ by Samsung

LIFE recorder 8K Camera by Skyworth

UltraFine Display Ergo by LG Electronics

UTS-1 Wireless Charger by KewLabs

What also caught my eye (alphabetical)

AMD Ryzen 5000 Mobile Processors

Ampridge MightyMic Pro Wireless Lavelier Smartphone Microphone Kit

Astro Design AB-4830 8K Camera

Astro Design AB-4831 8K Camera

ASUS ROG Swift PG32UG Monitor (with HDMI 2.1)

ASUS Zen AiO 22/24 All-in-One PC

ASUS ZenBook Duo 14 Laptop

Autoslide Automatic Doors

Camera Light 360 (CL360)

Dell Optiplex 3090 All-in-One PC

Dell Optiplex 3090 All-in-One PC

Dell U4021QW UltraSharp 40 Curved WUHD (5K2K) Display (with TB3)

Dell UP3221Q UltraSharp 32 4K HDR PremierColor mini-LED Monitor (2.000 Zones)

Dell Video Conferencing Monitor Series

EyeWearBeam (beta)

Fledging M17 SSD (for Macbook Pro)

HiSense L5 Series UST Projector

HiSense ULED 8K TV

Hogar Controls

Intel NUC 11 line

JBL SA750 Integrated Amplifier

Kensington StudioDock (for Apple iPad Air/Pro)

Kingston Workflow Station 

Landar Boulder Latern

Lenovo L24i-30 FHD Monitor

Lenovo Tab P11 Tablet

LG 40WP95C 39.7” UltraWide 5K2K IPS Display

LG QNED 4K MiniLED 90 Series

LG QNED 8K MiniLED 99 Series

LG Rollable Smartphone (prototype)

LG webOS 6.0

LivingPackets The Box

Microsoft Surface Pro 7+

MSI Summit 241 S All-in-One PC

NuEyes AR Glasses

NVIDIA GeForce RTX 30 Studio Series Laptops

NVIDIA GeForce RTX 3060 Graphics Card

Onkyo TX-RZ50 AV Receiver (with HDMI 2.1 Support)

Panasonic Soundslayer

Pioneer VSX-LX505 AV Receiver (with HDMI 2.1 Support)

Rokid Vision 2 (MR Glasses)

Samsung  8K QNED mini LED TV Series

Samsung Bot Care SmartThings Robot

Samsung Galaxy S21 Ultra Smartphone (8K Video)

Samsung HDR10+ Adaptive (to use with Filmmaker Mode)

Samsung HW-Q950A 11.1.4-channel Dolby Atmos Soundbar

Samsung JetBot SmartThings Robot

Samsung Neo 8K QLED TV Series

Samsung The Frame (2021)

Skyworth 8K LCD TV

Skyworth OLED TV

Skyworth UC8500 4K LCD TV Series

Skyworth XC9300 4K OLED TV Series

Sono Motors Sion Electric Car

Sony AIBO ERS-1000

Sony AirPeak Camera Drone

Sony Bravia XR MASTER Series A90J 4K OLED TV

Sony Bravia XR MASTER Series Z9J 8K LCD TV

Sony Modular Crystal LED B-series (ZRD-B12A/B15A) with high brightness

Sony Modular Crystal LED C-series (ZRD-C12A/C15A) with high contrast

Sony Vision-S Electric Car (Vehicle Prototype)

Stealtho Dock/Charger

TCL CSOT

TCL NXTPAPER Color Electronic Ink Tablet 

TCL OD Zero 8K mini LED 6-Series TV XL Collection

TCL Wearable Display

Officine IADR The Meter

Twinkly Flex LED

Twinkly Line LED 

Twinkly Squares LED Wall

ViewSonic ELITE Gaming Monitors

Vuzix Next Generation Smart Glasses (NGSG)

Xcinex Venue

Xemplar WebAR Platform

XiByte Maya AI Ai-powered Business Robot

YeeLight LED Screen Light Bar Pro

La Realidad Virtual se muestra como técnica segura de detección del Covid-19 en China. Buscan nuevas fórmulas para evitar estar cerca de la persona con posible contagio y, así, evitar la propagación. Las autoridades de la región china de Hangzhou están utilizando una técnica de última generación para poder detectar posibles casos de fiebre por el COVID-19, más conocido como coronavirus. Y lo pueden hacer desde un metro de distancia gracias a las gafas de realidad virtual. La nueva fórmula de usar con estas gafas de VR, fabricado por la compañía local Rokid Corp, usa funciones de Inteligencia Artificial (IA) en la que puede evaluar la temperatura de las personas sin tener que mantener contacto con estas. Estas gafas de realidad virtual son capaces de medir la temperatura de cientos de personas en tan solo 2 minutos. No solo es seguro por que mantiene la distancia de seguridad mínima de 1 metro, sino que además pude detectar cientos de casos en apenas segundos. Muestra los resultados al usuari@ a través de las gafas de realidad virtual, mostrando los resultados al usuario a través de las lentes del casco de realidad virtual. Rokid ha cedido esta tecnología a las autoridades de la región de Hangzhou, al este del país asiático, y en estos momentos este nuevo modelo de detección para coronavirus, está probándose sólo por pare de las personas que forman el equipo de seguridad en el parque Hongyuan. Rokid Glass son una gafas AR independientes que integra la tecnología AI (inteligencia artificial) y AR (realidad aumentada). Al responder a instrucciones complejas e incluso predecir la demanda, Rokid Glass puede ayudar mejor a las empresas a mejorar su eficiencia laboral. Las instalaciones del parque de Hongyauan es una de las que se volvió a abrir tras el fin de la cuarentena por el COVID-19 en China. Con esta nueva medida, las autoridades asiáticas, quieren evitar aglomeraciones en los controles como medida de prevención. Dijo que las gafas inteligentes se están desplegando esta semana en un intento por "reducir la posibilidad de que [un gran número de personas] se agolpen" en medio de los esfuerzos para hacer cumplir el distanciamiento social, especialmente a medida que se abren más instalaciones públicas en todo el continente después de casi dos meses apagado debido a la crisis del coronavirus. Las gafas inteligentes de Rokid, con sede en Hangzhou, pesan aproximadamente 100 gramos y están diseñadas para parecerse a las gafas de sol normales. Sin embargo, la cámara y el cable adjuntos son un claro indicio de que no se trata de un par de anteojos normales. Cada dispositivo envía una alerta automática cuando identifica a personas con fiebre y hace un registro digital. También admite reconocimiento facial en tiempo real y tareas colaborativas remotas. Fundada en 2014 por Misa Zhu Mingming, quien anteriormente dirigió un equipo de investigación de IA en Alibaba Group Holding, Rokid dijo que ha proporcionado "conjuntos múltiples" de sus gafas inteligentes al buró de seguridad pública y al centro de comando de la policía de carreteras de Hangzhou, capital de la provincia de Zhejiang , desde enero. También suministró gafas inteligentes a las autoridades de tránsito en las ciudades de Huzhou y Quzhou, también en Zhejiang. Alibaba es la empresa matriz del South China Morning Post . Tal como comunica la página web de la empresa, Rokid está ofreciendo varios modelos de cascos de realidad aumentada en las que se puede encontrar las Rokid Glass 2. que funcionan con sistema Android. Trabajan en una resolución de 1280x720p en cada lente, con 40 grados de ángulo de visión, altavoz y dos micrófonos con cancelación activa de ruido, una cámara de 8MP con enfoque automático y una batería de 10.000 mAh con carga rápida.

进入元宇宙神器 AR眼镜获基金下注

“元宇宙”让天才激动，让疯子癫狂。“在未来十年内，元宇宙将有10亿用户，拥有数千亿美元的市场规模，并为数百万创作者和开发者提供工作岗位。”随着朱克伯格将Facebook更名Meta，“元宇宙”带来的憧憬与商机彻底引爆了资本市场。罗兵咸永道更预计，2030年元宇宙市场规模达1.5万亿美元。热潮汹涌下，创业者跑步入场，投资人宿夜难寐，科技巨头则纷纷抢注商标，争抢下一个互联网流量入口的船票。\大公报记者 俞昼杭州报道

　　“助你一夜暴富”的元宇宙付费课程、“买到就是赚到”的元宇宙概念股票、港交所里全球首发的元宇宙敲钟仪式、不断被刷新纪录的元宇宙房地产交易价格……狂热之下，各行各业都杀入“元宇宙”战局。“今天人们谈元宇宙，谈Metaverse，普遍谈的都是大的畅想和未来。但对于技术创业者而言，我们会把关注点放在更本质或者说更底层的东西上。”祝铭明正是非常典型的技术创业者，2014年祝铭明另辟蹊径选择了AI和AR的赛道，创建了Rokid。

　　“复活”古城 置身体验古文明

　　“如果说元宇宙是未来的发展方向，那就应该去考虑如何将人与真实世界和虚拟世界做一个完整的融合，而不是彼此割裂存在。”祝铭明解释道，目前走向三维空间有两种路径，一种是虚拟现实（VR），另一种是增强现实（AR）。

　　“传统人机交互的过程是，人通过简单的指令输入，机器输出结果。例如我们在旅行中欣赏沿途的风景，汽车开过一座桥，我们想知道这座桥的名称，就从口袋里掏出手机，根据定位搜索附近的桥，然后通过屏幕看到手机给我们输出的结果。但其实当我们看到答案的那一刻，已经错过了太��的风景。”这种对人与数字世界和真实世界关系的思考，被祝铭明带入了Rokid AR眼镜里。

　　良渚古城遗址是新石器时代的文化遗址，经历五千多年风雨，虽留存丰富的生活痕迹，但除了土坡和水坝，其他建筑痕迹不多。游客往往只能凭借展示牌和讲解了解，站在陆城门、南城墙、莫角山宫殿区等遗址点来想像它曾经气势恢宏的样子。如今，戴上Rokid Glass 2眼镜，五千多年前的宫殿在眼前“拔地而起”，时不时还有几位先民“擦肩而过”，仿佛置身真正的良渚文明之中。

　　值得一提的是，Rokid在日前对外发布了量产的AR眼镜Rokid Air，该产品在全美知名众筹网站kickstarter上线30天，众筹金额超400万元（人民币，下同），超目标金额3400%。截至发稿，预定数量已逾2000副。祝铭明兴奋地表示：“Rokid Air是公司首款低于500美元（国内售价2999元人民币）的消费级AR眼镜，也是对YodaOS-XR系统的一次检验。”

　　飞跃发展 两大难题待解

　　“如果和手机的发展相比，现在AR眼镜的发展程度还处于初级阶段，真正的智能化并没有实现。”在祝铭明看来，AR眼镜要实现飞跃式发展，目前有两大难题待解：第一，单价；第二，应用生态。“行业要进入高速发展，技术、产业链、资金，缺一不可，但最重要的是一个引爆点，一个像iPhone引爆智能手机那样足以撼动消费市场的单品。而当出货量足够大的时候，AR眼镜的售价也就能降下来了。”

　　“元宇宙”或许就是这样的引爆点，《大公报》记者约访祝铭明的当日，他的行程表里排满了投资人洽谈的会议。作为国内最早专攻AR眼镜的企业之一，Rokid以平均1至2年一轮融资的速度，吸引着包括元璟、IDG、淡马锡等资本大佬的下注。2021年，Rokid又完成了数亿元的融资，投资方为海通证券和若干产业投资人。

　　“‘元宇宙’概念爆火后，我们确实吸引到了更多的投资人，但���都会跟他们强调，Rokid不是一家做元宇宙的公司，我们始终是一家人机交互公司。”不过，祝铭明也认为，“元宇宙”的迅速出圈正在加速百万级单品的诞生进程。

Chinese startup Rokid pitches COVID-19 detection glasses in US

New Post has been published on https://magzoso.com/tech/chinese-startup-rokid-pitches-covid-19-detection-glasses-in-us-2/

Chinese startup Rokid pitches COVID-19 detection glasses in US

Thermal imaging wearables used in China to detect COVID-19 symptoms could soon be deployed in the U.S.

Hangzhou based AI startup Rokid is in talks with several companies to sell its T1 glasses in America, according to Rokid’s U.S. Director Liang Guan.

Rokid is among a wave of Chinese companies creating technology to address the coronavirus pandemic, which has dealt a blow to the country’s economy. 

Per info Guan provided, Rokid’s T1 thermal glasses use an infrared sensor to detect the temperatures of up to 200 people within two minutes from as far as three meters. The devices carry a Qualcomm CPU, 12 megapixel camera and offer augmented reality features — for hands free voice controls — to record live photos and videos.

The Chinese startup (with a San Francisco office) plans B2B sales of its wearable devices in the U.S. to assist businesses, hospitals and law enforcement with COVID-19 detection, according to Guan.

Rokid is also offering IoT and software solutions for facial recognition and data management, as part of its T1 packages.

Image Credits: Rokid

The company is working on deals with U.S. hospitals and local municipalities to deliver shipments of the smart glasses, but could not disclose names due to confidentiality agreements.

One commercial venture that could use the thermal imaging wearables is California based e-commerce company Weee!.

The online grocer is evaluating Rokid’s T1 glasses to monitor temperatures of its warehouse employees throughout the day, Weee! founder Larry Liu confirmed to TechCrunch via email.

On procedures, to manage those who exhibit COVID-19 related symptoms —  such as referring them for testing — that’s something for end-users to determine, according to Rokid. “The clients can do the follow-up action, such as giving them a mask or asking to work from home,” Guan said.

The T1 glasses connect via USB and can be set up for IoT capabilities for commercial clients to sync to their own platforms. The product could capture the attention of U.S. regulators, who have become increasingly wary of Chinese tech firms’ handling of American citizen data. Rokid says it doesn’t collect info from the T1 glasses directly.

“Regarding this module…we do not take any data to the cloud. For customers, privacy is very important to them. The data measurement is stored locally,” according to Guan.

Image Credits: Rokid

Founded in 2014 by Eric Wong and Mingming Zhu, Rokid raised $100 million at the Series B level in 2018. The business focuses primarily on developing AI and AR tech for applications from manufacturing to gaming, but developed the T1 glasses in response to China’s COVID-19 outbreak.

The goal was to provide businesses and authorities a thermal imaging detection tool that is wearable, compact, mobile and more effective than the common options.

Large scanning stations, such as those used in airports, have drawbacks in not being easily portable and handheld devices — with infrared thermometers — pose risks.

“You have to point them to people’s foreheads…you need to be really close, it’s not wearable and you’re not practicing social distancing to use those,” Guang said.

Rokid pivoted to create the T1 glasses shortly after COVID-19 broke out in China in late 2019. Other Chinese tech startups that have joined the virus-fighting mission include face recognition giant SenseTime — which has installed thermal imaging systems at railway stations across China — and its close rival Megvii, which has set up similar thermal solutions in supermarkets.

On Rokid’s motivations, “At the time we thought something like this can really help the frontline people still working,” Guang said.

The startup’s engineering team developed the T1 product in just under two months. In China, Rokid’s smart glasses have been used by national parks staff, in schools and by national authorities to screen for COVID-19 symptoms.

Temperature detectors have their limitation, however, as research has shown that more than half of China’s COVID-19 patients did not have a fever when admitted to hospital.

Source: Johns Hopkins University of Medicine Coronavirus Research Center

The growth rate of China’s coronavirus cases — which peaked to 83,306 and led to 3,345 deaths — has declined and parts of the country have begun to reopen from lockdown. There is still debate, however, about the veracity of data coming out of China on COVID-19. That led to a row between the White House and World Health Organization, which ultimately saw President Trump halt U.S. contributions to the global body this week.

As COVID-19 cases and related deaths continue to rise in the U.S., technological innovation will become central to the health response and finding some new normal for personal mobility and economic activity. That will certainly bring fresh facets to the common tech conundrums — namely measuring efficacy and balancing benefits with personal privacy.

For its part, Rokid already has new features for its T1 thermal smart glasses in the works. The Chinese startup plans to upgrade the device to take multiple temperature readings simultaneously for up to four people at a time.

“That’s not on the market yet, but we will release this very soon as an update,” said Rokid’s U.S. Director Liang Guan.

What I Learned From Designing AR Apps

What I Learned From Designing AR Apps

Gleb Kuznetsov

2019-06-24T12:00:59+02:002019-06-24T10:18:07+00:00

The digital and technological landscape is constantly changing — new products and technologies are popping up every day. Designers have to keep track of what is trending and where creative opportunities are. A great designer has the vision to analyze new technology, identify its potential, and use it to design better products or services.

Among the various technologies that we have today, there’s one that gets a lot of attention: Augmented Reality. Companies like Apple and Google realize the potential of AR and invest significant amounts of resources into this technology. But when it comes to creating an AR experience, many designers find themselves in unfamiliar territory. Does AR require a different kind of UX and design process?

As for me, I’m a big fan of learning-by-doing, and I was lucky enough to work on the Airbus mobile app as well as the Rokid AR glasses OS product design. I’ve established a few practical rules that will help designers to get started creating compelling AR experiences. The rules work both for mobile augmented reality (MAR) and AR glasses experiences.

Rokid Glasses motion design exploration by Gleb Kuznetsov

Glossary

Let’s quickly define the key terms that we will use in the article:

Mobile Augmented Reality (MAR) is delivering augmented reality experienced on mobile devices (smartphones and tablets);

AR Glasses are a wearable smart display with a see-through viewing an augmented reality experience.

1. Get Buy-In From Stakeholders

Similar to any other project you work for, it is vital that you get support from stakeholders as early in the process as is possible. Despite being buzzed about for years, many stakeholders have never used AR products. As a result, they can question the technology just because they don’t understand the value it delivers. Our objective is to get an agreement from them.

“Why do we want to use AR? What problem does it solve?” are questions that stakeholders ask when they evaluate the design. It’s vital to connect your design decisions to the goals and objectives of the business. Before reaching stakeholders, you need to evaluate your product for AR potential. Here are three areas where AR can bring a lot of value:

Business Goals Understand the business goals you're trying to solve for using AR. Stakeholders always appreciate connecting design solutions to the goals of the business. A lot of time business will respond to quantifiable numbers. Thus, be ready to provide an explanation off how your design is intended to help the company make more money or save more money.

Helpfulness For Users AR will provide a better user experience and make the user journey a lot easier. Stakeholders appreciate technologies that improve the main use of the app. Think about the specific value that AR brings to users.

Creativity AR is excellent when it comes to creating a more memorable experience and improving the design language of a product. Businesses often have a specific image they are trying to portrait, and product design has to reflect this.

Only when you have a clear answer to the question “Why is this better with AR?”, you will need to share your thoughts with stakeholders. Invest your time in preparing a presentation. Seeing is believing, and you’ll have better chances of buy-in from management when you show a demo for them. The demo should make it clear what are you proposing.

2. Discovery And Ideation

Explore And Use Solutions From Other Fields

No matter what product you design, you have to spend enough time researching the subject. When it comes to designing for AR, look for innovations and successful examples with similar solutions from other industries. For example, when my team was designing audio output for AR glasses, we learned a lot from headphones and speakers on mobile phones.

Design User Journey Using “As A User I Want” Technique

One of the fundamental things you should remember when designing AR experiences is that AR exists outside of the phone or glasses. AR technology is just a medium that people use to receive information. The tasks that users want to accomplish using this technology are what is really important.

“How to define a key feature set and be sure it will be valuable for our users?” is a crucial question you need to answer before designing your product. Since the core idea of user-centered design is to keep the user in the center, your design must be based on the understanding of users, their goals and contexts of use. In other words, we need to embrace the user journey.

When I work on a new project, I use a simple technique “As a [type of user], I want [goal] because [reason].” I put myself in the user's shoes and think about what will be valuable for them. This technique is handy during brainstorming sessions. Used together with storyboarding, it allows you to explore various scenarios of interaction.

In the article “Designing Tomorrow Today: the Airbus iflyA380 App,” I’ve described in detail the process that my team followed when we created the app. The critical element of the design process was getting into the passenger’s mind, looking for insights into what the best user experience would be before, during and after their flight.

To understand what travelers like and dislike about the travel experience, we held a lot of brainstorming sessions together with Airbus. Those sessions revealed a lot of valuable insights. For example, we found that visiting the cabin (from home) before flying on the A380 was one of the common things users want to do. The app uses augmented reality so people can explore the cabin and virtually visit the upper deck, the cockpit, the lounges — wherever they want to go — even before boarding the plane.

IFLY A380 iOS app design by Gleb Kuznetsov. (Large preview)

App also accompanies passengers from the beginning to the end of their journey — basically, everything a traveler wants to do with the trip is wrapped up in a single app. Finding your seat is one of the features we implemented. This feature uses AR to show your seat in a plane. As a frequent traveler, I love that feature; you don’t need to search for the place at the time when you enter the cabin, you can do it beforehand — from the comfort of your couch. Users can access this feature right from the boarding pass — by tapping on ‘glass’ icon.

IFLY A380 app users can access the AR feature by tapping on the ‘glass’ icon. (Large preview)

Narrow Down Use Cases

It might be tempting to use AR to solve a few different problems for users. But in many cases, it’s better to resist this temptation. Why? Because by adding too many features in your product, you make it not only more complex but also more expensive. This rule is even more critical for AR experience that generally requires more effort. It’s always better to start with simple but well-designed AR experience rather than multiple complex but loose designed AR experiences.

Here are two simple rules to follow:

Prioritize the problems and focus on the critical ones.

Use storyboarding to understand exactly how users will interact with your app.

Remember to be realistic. Being realistic means that you need to strike a balance between creativity and technical capabilities.

Use Prototypes To Assess Ideas

When we design traditional apps, we often use static sketches to assess ideas. But this approach won’t work for AR apps.

Understanding whether a particular idea is good or bad cannot be captured from a static sketch; quite often the ideas that look great on paper don’t work in a real-life context.

“

Thus, we need to interact with a prototype to get this understanding. That’s why it’s essential to get to prototyping state as soon as possible.

It’s important to mention that when I say ‘prototyping state’ I don’t mean a state when you create a polished high-fidelity prototype of your product that looks and work as a real product. What I mean is using a technique of rapid prototyping and building a prototype that helps you experience the interaction. You need to make prototypes really fast — remember that the goal of rapid prototyping is in evaluating your ideas, not in demonstrating your skills as a visual designer.

3. Design

Similar to any other product you design, when you work on AR product, your ultimate goal is to create intuitive, engaging, and clean interface. But it can be challenging since the interface in AR apps accounts both for input and output.

Physical Environment

AR is inherently an environmental medium. That’s why the first step in designing AR experience is defining where the user will be using your app. It’s vital to select the environment up front. And when I say ‘environment’, I mean a physical environment where the user will experience the app — it could be indoors or outdoors.

Here are three crucial moments that you should consider:

How much space users need to experience AR? Users should have a clear understanding of the amount of space they’ll need for your app. Help users understand the ideal conditions for using the app before they start the experience.

Anticipate that people will use your app in environments that aren’t optimal for AR. Most physical environments can have limitations. For example, your app is AR table tennis game but your users might not have a large horizontal surface. In this case, you might want to use a virtual table generated based on your device orientation.

Light estimation is essential. Your app should analyze the environment automatically and provide contextual guidance if the environment is not good enough. If the environment is too dark or too bright for your app, tell the user that they should find a better place to use your app. ARCore and ARKit have a built-in system for light estimation.

When my team designed Airbus i380 mobile AR experience, we took the available physical space into account. Also, we’ve considered the other aspects of interaction, such as the speed at which the user should make decisions. For instance, the user who wants to find her seat during the boarding won’t have too much time.

We sketched the environment (in our case, it was a plane inside and outside) and put AR objects in our sketch. By making our ideas tangible, we got an understanding of how the user will want to interact with our app and how our app will adapt to the constraints of the environment.

AR Realism And AR Objects Aesthetics

After you define the environment and required properties, you will need to design AR objects. One of the goals behind creating AR experience is to blend virtual with real. The objects you design should fit into the environment — people should believe that AR objects are real. That’s why it’s important to render digital content in context with the highest levels of realism.

Here are a few rules to follow:

Focus on the level of details and design 3D assets with lifelike textures. I recommend using multi-layer texture model such as PBR (Physically Based Rendering model). Most AR development tools support it, and this is the most cost-effective solution to achieve an advanced degree of detail for your AR objects.

Get the lighting right. Lighting is a very crucial factor for creating realism — the wrong light instantly breaks the immersion. Use dynamic lighting, reflect environmental lighting conditions on virtual objects, cast object shadows, and reflections on real-world surfaces to create more realistic objects. Also, your app should react to real-world changing of lighting.

Minimize the size of textures. Mobile devices are generally less powerful than desktops. Thus, to let your scene load faster, don’t make textures too large. Strive to use 2k resolution at most.

Add visual noise to AR textures. Flat-colored surfaces will look fake to the user's eye. Textures will appear more lifelike when you introduce rips, pattern disruptions, and other forms of visual noise.

Prevent flickering. Update the scene 60 times per second to prevent flickering of AR objects.

Design For Safety And Comfort

AR usually accompanied by the word ‘immersive.’ Creating immersive experience is a great goal, but AR immersion can be dangerous — people can be so immersed in smartphones/glasses, so they forget what is happening around them, and this can cause problems. Users might not notice hazards around them and bump into objects. This phenomenon is known as cognitive tunneling. And it caused a lot of physical traumas.

Avoid users from doing anything uncomfortable — for example, physically demanding actions or rapid/expansive motion.

Keep the user safe. Avoid situations when users have to walk backward.

Avoid long play AR sessions. Users can get fatigued using AR for extended periods. Design stop points and in-app notifications that they should take a break. For instance, if you design an AR game, let users pause or save their progress.

Placement For Virtual Objects

There are two ways of placing virtual objects — on the screen or in the world. Depending on the needs of your project and device capabilities, you can follow either the first or second approach. Generally, virtual elements should be placed in world space if they suppose to act like real objects (e.g., a virtual statue in AR space), and should be placed as an on-screen overlay if they intended to be UI controls or information messages (e.g., notification).

Rokid Glasses. (Large preview)

‘Should every object in AR space be 3D?’ is a common question among designers who work on AR experiences. The answer is no. Not everything in the AR space should be 3D. In fact, in some cases like in-app notifications, it's preferable to use flat 2D objects because they will be less visually distracting.

Rokid Glasses motion design exploration by Gleb Kuznetsov. (Large preview)

Avoid Using Haptic Feedback

Phone vibrations are frequently used to send feedback in mobile apps. But using the same approach in AR can cause a lot of problems — haptic feedback introduces extra noise and makes the experience less enjoyable (especially for AR Glasses users). In most cases, it’s better to use sound effect for feedback.

Make A Clear Transition Into AR

Both for MAR and AR glass experiences, you should let users know they’re about to transition into AR. Design a transition state. For the ifly380 app, we used an animated transition — a simple animated effect that user sees when taps on the AR mode icon.

Trim all the fat.

Devote as much of the screen as possible to viewing the physical world and your app's virtual objects:

Reduce the total number of interactable elements on the screen available for the user at one moment of time.

Avoid placing visible UI controls and text messages in your viewport unless they are necessary for the interaction. A visually clean UI lends itself seamlessly to the immersive experience you’re building.

Prevent distractions. Limit the number of times when objects appear on the user screen out of the blue. Anything that appears out of the blue instantly kills realism and make the user focus on the object.

AR Object Manipulation And Delineating Boundaries Between The ‘Augment’ And The ‘Reality’

When it comes to designing a mechanism of interaction with virtual objects, favor direct manipulation for virtual objects — the user should be able to touch an object on the screen and interact with it using standard, familiar gestures, rather than interact with separate visible UI controls.

Also, users should have a clear understanding of what elements they can interact with and what elements are static. Make it easy for users to spot interactive objects and then interact with them by providing visual signifiers for interactive objects. Use glowing outlines or other visual highlights to let users know what’s interactive.

Scan object effect for outdoor MAR by Gleb Kuznetsov. (Large preview)

When the user interacts with an object, you need to communicate that the object is selected visually. Design a selection state — use either highlight the entire object or space underneath it to give the user a clear indication that it’s selected.

Last but not least, follows the rules of physics for objects. Just like real objects, AR objects should react to the real-world environment.

Design For Freedom Of Camera

AR invites movement and motion from the user. One of the significant challenges when designing or AR is giving users the ability to control the camera. When you give users the ability to control the view, they will swing device around in an attempt to find the points of interest. And not all apps are designed to help the user to control the viewfinder.

Google identifies four different ways that a user can move in AR space:

Seated, with hands fixed.

Seated, with hands moving.

Standing still, with hands fixed.

Moving around in a real-world space.

The first three ways are common for mobile AR while the last one is common for AR glasses.

In some cases, MAR users want to rotate the device for ease of use. Don’t interrupt the camera with rotation animation.

Consider Accessibility When Designing AR

As with any other product we design, our goal is to make augmented reality technology accessible for people. Here are a few general recommendations on how to address real-world accessibility issues:

Blind users. Visual information is not accessible to blind users. To make AR accessible for blind users, you might want to use audio or haptic feedback to deliver navigation instructions and other important information.

Deaf or hard-hearing users. For AR experience that requires voice interaction, you can use visual signals as an input method (also known as speechreading). The app can learn to analyze lip movement and translate this data in commands.

If you're interested in learning more practical tips on how to create accessible AR apps, consider watching the video talk by Leah Findlater:

Encourage Users To Move

If your experience demands exploration, remind users they can move around. Many users have never experienced a 360-degree virtual environment before, and you need to motivate them to change the position of their device. You can use an interactive object to do that. For example, during I/0 2018, Google used an animated fox for Google Maps that guided users to the target destination.

This AR experience uses an animated bird to guide users. (Large preview)

Remember That Animation Is A Designer’s Best Friend

Animation can be multipurpose. First, you can use a combination of visual cues and animation to teach users. For example, the animation of a moving phone around will make it clear what users have to do to initialize the app.

Second, you can use animation to create emotions.

One second of emotion can change the whole reality for people engaging with a product.

“

Well-designed animated effects help to create a connection between the user and the product — they make the object feel tangible. Even a simple object such as loading indicator can build a bridge of trust between users and the device.

Rokid Alien motion design by Gleb Kuznetsov. (Large preview)

A critical moment about animation — after discovering the elements of design and finding design solutions for the animation base, it’s essential to spend enough time on creating a proper animated effect. It took lots of iterations to finish a loading animation that you see above. You have to test every animation to be sure it works for your design and be ready to adjust color, positioning, etc. to give the best effect.

Prototype On The Actual Device

In the interview for Rokid team, Jeshua Nanthakumar mentioned that the most effective AR prototypes are always physical. That’s because when you prototype on the actual device, from the beginning, you make design work well on hardware and software that people actually use. When it comes to unique displays like on the Rokid Glasses, this methodology is especially important. By doing that you’ll ensure your design is implementable.

Motion design language exploration for AR Glasses Rokid by Gleb Kuznetsov. (Large preview)

My team was responsible for designing the AR motion design language and loading animation for AR glasses. We decided to use a 3D sphere that will be rotated during the loading and will have nice reflections on its edges. The design of the animated effect took two weeks of hard work of motion designers and it looked gorgeous on high-res monitors of our design team, but the final result wasn’t good enough because the animation caused motion sickness.

Motion sickness often caused by the discrepancies between the motion perceived from the screen of AR Glasses and the actual movement of the user's head. But in our case, the root cause of the motion sickness was different — since we put a lot of attention in polishing details like shapes, reflections, etc. unintentionally we made users focus on those details while the sphere was moving.

As a result, the motion happened in the periphery, and since humans are more sensitive to the moving objects in the periphery this caused motion sickness. We solved this problem by simplifying the animation. But it’s critical to mention that we won’t be able to find this problem without testing on the actual device.

If we compare the actual procedure of testing of AR apps with traditional GUI apps, it will be evident that testing AR apps require more manual interactions. A person who conducts testing should determine whether the app provides the correct output based on the current context.

Here are a few tips that I have for conducting efficient usability testing sessions:

Prepare a physical environment to test in. Try to create real-world conditions for your app — test it with various physical objects, in different scenes with different lighting. But the environment might not be limited to scene and lighting.

Don’t try to test everything all at once. Use a technique of chunking. Breaking down a complex flow into smaller pieces and testing them separately is always beneficial.

Always record your testing session. Record everything that you see in the AR glass. A session record will be beneficial during discussions with your team.

Testing for motion sickness.

Share your testing results with developers. Try to mitigate the gap between design and development. Make sure your engineering team knows what problem you face.

Conclusion

Similar to any other new technology, AR comes with many unknowns. Designers who work on AR projects have a role of explorers — they experiment and try various approaches in order to find the one that works best for their product and delivers the value for people who will use it.

Personally, I believe that it’s always great to explore new mediums and find new original ways of solving old problems. We are still at the beginning stages of the new technological revolution — the exciting time when technologies like AR will be an expected part of our daily routines — and it’s our opportunity to create a solid foundation for the future generation of designers.

(cc, yk, il)

Smart Glass Market by Company Profile, Product Specifications, Capacity, Production Value and Forecast 2022

Global Smart Glass is expected to grow at 18% CAGR (2016-2022). These are the key factors that have acted as driver for the Smart Glass market However, the high upfront cost, difficult installation. Lack of awareness about the usability and benefits among consumer are some of the factor which is hindering the growth of Smart glass Market. Smart Glass Market Research Report 2018 - Global Industry analysis by Key Companies, Type, Application, Market Share, Growth Rate, and Key Country forecast to 2023. Smart Glass Industry depth analysis is done for North America, Europe, APAC and Rest of the World. Smart Glass market growing at rapid pace over the forecast period of 2018 to 2022

Global Smart Glass Market, by Technology (Suspended particle devices, thermochromic devices), by Verticals (Architecture, Transportation, power generation plant, consumer Electronics) - Forecast 2016-2022

Get Free Sample of Report @ https://www.marketresearchfuture.com/sample_request/1830

Key Players

The prominent players in the market of Smart Glass are- Active Glass Technologies PLC (U.K.), Asahi Glass Company, Ltd. (Japan), Corning,Inc.(U.S.), Saint-Gobain S.A(France), Schott AG(Germany), SmartGlass International, Ltd.(Ireland),Research Frontiers, Inc.(U.S.), Raven brick LLC(U.S.), Pleotint LLC(U.S.), PPG Industries, Inc.(U.S.), DuPont(U.S.),  Nippon Sheet Glass Co., Ltd.(Japan), LTI Smart Glass Inc.(U.S.),Polytronix, Inc.(U.S.), Hitachi Chemical Co., Ltd(Japan), GlasNovations, Ltd. (U.K.), Scienstry, Inc. (U.S.), SPD Control Systems Corporation (U.S.) among others.

Smart Glass Global Market - Overview

Global Smart Glass Market is growing enormously due to the increasing demand of smart glasses in various sector such as architecture and construction sector, automobile and aviation among others. The smart glass also offer key benefits such as less maintenance, high durability, enhanced operation efficiency, blocking the UV rays, reduced heating, air-conditioning and lighting cost are some of the major factors which are helping the market to grow. The Government policies around the globe and initiative such as eco-friendly and green buildings are also helping market of smart glass to grow.

Global Smart Glass Market is expected to grow at CAGR of ~18% and expected to generate revenue of US ~$8 billion by the end of forecast period. Europe has some of the major key players such as Schott AG, and Smart Glass International, Ltd. among other are manufacturing wide range of intelligent glass products due to its significant usage in various industries and is expected to generate the largest revenue in the global market followed by North America and Asia-pacific.

The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.

Smart Glass Global Market - Segmentation

The Smart Glass market can be segmented in to 3 key dynamics for the convenience of the report and enhanced understanding;

Segmentation by Technology : Suspended particle devices, thermochromics Devices, Liquid crystal devices and Electrochromic devices.

Segmentation by Verticals      : Architecture, Transportation, Power generation plant, consumer electronics, automotive, aviation among others.

Segmentation by Regions:  Geographical Regions - North America, Europe, Asia Pacific and Rest of The World.

Industry News:

June 2018 – Rokid, Chinese artificial intelligence and smart hardware company, unveiled three new hardware innovations products, which are the Rokid Me Portable Smart Speaker, the Kamino18 AI Voice Dedicated Chip, and the new Rokid AR Glass. The Rokid Glass offers object recognition and improves efficiency at dissipating heat. Rokid Glass designed to supports Wi-Fi positioning that enables smart detection and indoor position navigation.

June 2018 – Plessey Semiconductors, a developer of optoelectronic technology solutions, entered into partnership with Vuzix, a specialist in the development of technologies for smart glasses to develop technologies for a new generation of AR smart glasses.

June 2018 – Toshiba entered into partnership with Ubimax, the global market leader for enterprise wearable computing solutions, to launch dynaEdge DE-100 and AR100 Viewer Assisted Reality smart glass solution. This glass solution is designed to provide industry workflow which enable the workers to achieve high performance in their tasks.

Smart Glass Global Market - Competitive Analysis

The market of Smart Glass appears to be highly competitive. To maintain the market position and to drive the market growth, various dynamic and diversified international organizations, domestic organizations and as well as new entrants form a competitive landscape. Market leaders are innovating continuously and increasingly seeking market expansion through various strategic mergers and acquisitions, innovation, increasing investments in research and development and cost-effective product portfolio.

Access Report Details @ https://www.marketresearchfuture.com/reports/smart-glass-market-1830

List Of Tables

Table 1 Global Smart Glass Market, By Technology

Table 2 Global Smart Glass Market, By Verticals

Table 4 Global Smart Glass Market, By Regions

List Of Figures

Figure 1 Research Type

Figure 2 Global Smart Glass Market: By Technology (%)

Figure 3 Global Smart Glass Market: By Verticals (%)

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

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COVID-19 - inteligentne okulary mierzą temperaturę na odległość

Władze miasta Hangzhou we wschodnich Chinach rozpoczęły testowanie nowych możliwości walki z rozprzestrzenianiem się koronawirusa. Jak informuje The South China Morning– anglojęzyczna gazeta wydawana z Hongkongu - mobilni pracownicy ochrony parku Hongyuan (część rezerwatu Xixi Wetland w mieście Hangzhou na wschodzie Chin) wyposażeni zostali w inteligentne okulary, umożliwiające sprawdzanie temperatury ciała gości odwiedzających park miejski. Inteligentne okulary, wyprodukowane przez chiński start-up ROKID CORP., umożliwiają bezkontaktowe zarejestrowanie w podczerwieni i sprawdzenie w ciągu dwóch minut temperatury ciała kilkuset osób z odległości do 1 metra. - Nasze okulary gwarantują szeroki zasięg i szybkość działania, z której nawet Superman byłby dumny - powiedział przedstawiciel firmy podczas publicznej prezentacji urządzenia (26 marca br. ).

Okulary firmy ROKID CORP. ważą około 100 gramów i wyglądają jak zwykłe okulary przeciwsłoneczne. Umożliwiają nie tylko sprawdzenie temperatury ciała, ale też rozpoznawanie twarzy w czasie rzeczywistym. Zainstalowany w okularach moduł może mierzyć temperaturę w zaledwie 0.5 sekundy. Dzięki nim możliwe stało się otwarcie miejskiego parku dla mieszkańców bez konieczności sprawdzania temperatury ich ciał - najprostszego i najszerzej wykorzystywanego narzędzia kontrolnego - przy wejściu do obiektu. Pozwoliło to na wyeliminowanie kolejek.

Jak donosi chiński dziennik wybuch epidemii Covid-19 doprowadził do gwałtownego rozwoju możliwości, jakie daje wykorzystanie aplikacji sztucznej inteligencji (AI) w przeciwdziałaniu rozprzestrzenianiu się śmiertelnego wirusa - począwszy od inteligentnych robotów, rozpylających środki dezynfekcyjne na oddziałach zamkniętych, przez aplikacje śledzące historię podróży ludzi, którzy mogli być zarażeni po asystentów głosowych dzwoniących do ludzi, udzielających porad na temat kwarantanny głosowej.

ROKID CORP z siedzibą w Hangzhou założył w lipcu 2014 r. Misa Zhu Mingming, wcze��niej kierujący zespołem badawczym w Alibaba Group Holding. Ten chiński start-up specjalizuje się w produkcji inteligentnych okularów, rozszerzających możliwości urządzeń mobilnych wykorzystywanych na co dzień (tablety, smartfony, komputery, konsole gier). Zaprezentowany w 2018 r. podczas targów w Las Vegas prototypowy system Aurora wykorzystywał okulary wyposażone w dwie kamery głębokości, system SLAM (jednoczesna lokalizacja i mapowanie), wbudowane głośniki stereo oraz port typu USB-C do rozpoznawania twarzy oraz przedmiotów. Producent przekonywał, że system umożliwia również analizę w czasie rzeczywistym mowy i tłumaczenie jej na pięć języków (angielski, japoński, hiszpański, francuski i chiński). Okulary mogą być również wykorzystywane jako ekran urządzeń mobilnych - konfigurując odpowiednio urządzenie można przenosić obraz z ekranów tabletu czy smartfona bezpośrednio na ekran wbudowany w okulary. Najnowszy produkt firmy - Rokid Glass 2 - umożliwia współpracę z systemem Android - zapewnia rozdzielczość 1280x720p na każdym obiektywie, z kątem widzenia 40 stopni, głośnikiem i dwoma mikrofonami z aktywną redukcją szumów, kamerą 8MP z autofokusem i baterią o pojemności 10.000 mAh z szybkim ładowaniem.

Zastosowania produktów ROKID CORP. są bardzo szerokie. Sprawdzanie temperatury ciała gości odwiedzających park to najnowsze osiągnięcie. Wcześniej spółka opracowała na przykład specjalne okulary dla miłośników Formuły 1 - dzięki danym zgromadzonym za pomocą kamer w karoserii samochodu wyścigowego FI, rejestrowanych podczas jazd kwalifikacyjnych Lewisa Hamiltona w 2018 r., fani wyścigów mogą w nich „uczestniczyć” w wersji 3D. Public Eye Hospital pozwala na większą samodzielność osobom niedowidzącym ((nawigacja po mieście, wspinaczka po schodach, wyszukiwanie wizualne itp.). Interfejs Esport, opracowany przez ROKID CORP. we współpracy z Deutsche Telekom AJ, MobiledgeX i forwARdgae to pierwsza na świecie aplikacja umożliwiająca grę wieloosobową na okularach Rokid Vision MR.  

Jak poinformował kilka tygodni temu Misa Zhu Mingming jego spółka dostarczyła „wiele zestawów” swoich inteligentnych okularów do biura bezpieczeństwa publicznego i centrum dowodzenia policji drogowej zarówno w Hangzhou jak i w miastach Huzhou i Quzhou. I choć system rozpoznawania twarzy niewątpliwie pomógł w walce z rozprzestrzenianiem się choroby to jednak upowszechnianie tego systemu rodzi obawy o kompromis między dobrem publicznym (ochrona zdrowia) a naruszeniem prywatności osób badanych dzięki wykorzystaniu narzędzi AI.

Jest to jednak zupełnie inny temat.

(raj)

Źródło: The South China Morning, sztucznainteligencja.org.pl , ROKID CORP. Fot. ROKID Corp. Video: ROKID Corp.

別只盯着谷歌眼鏡，這部國產智能眼鏡很強大，開發簡單快速入門

而智能眼鏡作為VR 和 AR 技術依託的硬件設備，也越來越被終端廠商所重視，Rokid 作為國內專業 AR 眼鏡設備及方案廠商，在對人工智能的深耕下也推出了 Rokid Glass 2 AR 眼鏡，其實現舒適佩戴體驗的同時，也採用了業界領先陣列光波導技術，帶來逼真的顯示效果，在

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大公司 微信订阅号正在灰度测试付费图文功能  36氪获悉，微信宣布正在灰度测试订阅号付费图文功能。开通付费功能后，文章将分为“普通图文”和“付费图文”两种类型，付费图文必须是原创文章。对于付费图文，用户未付费前可免费阅读前言和试读部分，留言只可查看；付费后可以阅读全文、写留言。 蔚来盘前涨超13%，消息称广汽计划入股 36氪获悉，根据雪球数据，截至发稿，蔚来盘前报4.25美元，涨13.03%。此前有消息称广汽计划入股蔚来，随后蔚来回应称“以公告为准”。 百度App春节发5亿现金红包 36氪获悉，百度宣布“好运中国年活动”即将启动，活动将于1月15日0点准时开启，直至24日24:00止。期间，用户可以通过“集好运”和“团圆红包”两大玩法瓜分今年的5亿元现金红包。此外，百度还会提供华为Mate30 Pro 、戴森V8吸尘器、小米扫地机器人、足金好运鼠等奖品。 小红书创作者中心正式上线 36氪获悉，小红书创作者中心正式上线，粉丝量超过5000、在过去6个月发布过10篇或以上自然阅读量超过2000的笔记、且无违规行为的用户，都可以在App内申请创作者中心使用权限。此外，升级后的品牌合作平台也在同一时间上线，并开放支持未签MCN的个人创作者入驻。据官方介绍，目前小红书并未对个人创作者或MCN机构抽佣。 华为5G手机全球总发货量突破690万台  36氪获悉，华为终端公司官方微博宣布，截至2019年12月底，华为5G手机全球总发货量突破690万台。 QQ公布春节红包玩法：答题形式，含现金红包、游戏皮肤等 腾讯QQ团队今日公布了春节红包玩法：答题抢红包。小年、除夕、大年初一三天在手机QQ上线，包括现金红包、游戏皮肤、优惠券等。题目将以成语、对联等形式出现。答题结束后，只要不是零分，用户就可以点击“立即领取奖励”开奖。（腾讯科技） 大众2019年在华销量达423万辆，SUV销量同比增长81%  1月14日晚间，大众汽车集团公布2019年在中国市场的交付量。2019年大众在中国市场的的总交付量为423万辆，创历史新高，较2018年的421万辆微增0.6%。目前，中国已成为大众集团最重要的区域市场。2019年，大众品牌在中国市场的交付量上升了1.7%，达到 316.3万辆，占到了全球总销量的50.38%。（未来汽车日报） 任天堂Store已支持支付宝、银联付款  36氪获悉，任天堂官方微博宣布，Nintendo Store现支援VISA、MasterCard、Alipay、Unionpay付款。 58同城2020年组织架构调整：启动职业教育、加强汽车业务发展、打造大中台 36氪获悉，58同城公布最新公司组织架构调整，将原人力资源事业群升级为人力资源及职业教育事业群（HRG），聘任陈永胜为人力资源及职业教育事业群副总裁，正式启动职业教育。加强汽车事业群发展，由58同城CTO邢宏宇负责。此外，58同城将打造“大中台”体系，继续为前台等业务端提供平台级专业支持。“大中台”由技术工程平台群、商业智能中心等组成，统一向58同城联席总裁何明科汇报。 小米生态链企业石头科技获批注册科创板 36氪获悉，1月14日晚间，证监会发布消息称，按法定程序同意北京石头世纪科技股份有限公司首次公开发行股票注册，将陆续刊登招股文件。据官方介绍，石头科技是登陆科创板的第一家小米生态链企业，其明星产品为小米定制品牌“米家智能扫地机器人”，以及自有品牌“石头智能扫地机器人”和“小瓦智能扫地机器人”。 投融资 腾势新能源汽车注册资本新增7亿，比亚迪、戴姆勒为两大股东 36氪获悉，天眼查数据显示，1月14日，深圳腾势新能源汽车有限公司发生注册资本新增，由原来的50.6亿增至57.6亿，增幅达13.83%。该公司是由中国新能源汽车企业比亚迪与世界豪华车制造企业德国戴姆勒共同设立的合资企业，双方各持股50%。该公司法定代表人为Hubertus Troska，比亚迪董事长兼总裁王传福为董事之一。 猫眼娱乐：方源资本购入重要少数股权，CEO郑志昊参与跟投 36氪获悉，猫眼娱乐发布公告称，方源资本（亚洲）有限公司的董事唐立淳已获猫眼董事会任命为非执行董事，任期自2020年1月15日起为期三年。另外，私募股权投资机构方源资本购入其重要少数股权，猫眼娱乐CEO郑志昊参与跟投。 身份认证创企“Trusona”获2000万美元融资  36氪获悉，近日，据外媒报道，身份认证创企“Trusona”获得了2000万美元的融资，此轮融资由 Georgian Partners领投，Microsoft’s M12、Kleiner Perkins、OurCrowd、Seven Peaks Ventures和 Akamai参投。通过此轮融资，Trusona计划开发新产品，扩展公司的业务，在技术上实现创造性的突破。 新零售会员数据智能服务商“慧远科技”完成数千万元A轮融资  36氪获悉，新零售会员数据智能服务商杭州慧远信息科技有限公司近期完成了数千万元A轮融资，由华瓯创投领投，A股上市公司电魂网络、卜元资本、云鼎投资跟投。据悉，本轮融资资金将用于产品研发、市场扩张和团队优化。2018年，慧远科技曾获得由华旦资本领投，多牛资本和企朋股份跟投的数百万元Pre-A轮融资。 新产品 Rokid发布最新一代AR眼镜Rokid Glass 2  36氪获悉，Rokid发布最新一代AR眼镜Rokid Glass 2，官方介绍称这是一台可以折叠的AR眼镜，适用于安防、工业、教育等多个场景。此外，Rokid宣布目前Rokid AR团队正在研发下一代双目产品，该产品是一款轻量级一体式AR眼镜，预计在2020年第三季度发布。 Farfetch推出AR试鞋功能  36氪获悉，1月13日，奢侈品时尚技术平台Farfetch推出AR试鞋功能，消费者在线上平台购买鞋款时可实现虚拟试穿。Farfetch第一批将上线40双鞋的3D模型，包括Nike，Adidas和Jordan品牌，每个月更新两次AR产品清单，每次将新增10双鞋加入虚拟试穿项目。 今日观点 上海市市长应勇：今年将推动科创板持续发展，支持和鼓励更多科创企业上市 上海市市长应勇表示，今年上海将推动科创板持续发展，加快重点领域改革攻坚。深入实施“浦江之光”行动，支持和鼓励更多科创企业上市，集聚更多法律服务、信用评级、保荐等中介服务机构，加快打造服务全国科创企业的重要投融资平台。深入推进区域性国资国企综合改革，分类开展国有资本授权经营体制改革。支持民营企业改革发展和科技创新，完善中小企业发展政策体系。（上观新闻） 国资委：今年将进一步推动央企战略性重组 国资委新闻发言人彭华岗表示，今年将进一步推动中央企业的战略性重组，同时要进一步加大力度，特别是在专业化重组上要下力量。至于有哪些行业，哪些企业要重组，从这几年大家关注的问题来看，都是水到渠成。（一财） 其他重要新闻 苹果安卓充电器或将统一，欧盟拟强推通用手机充电器 日前，欧洲议会正在讨论是否要对所有新手机强制采用通用充电器，这意味着iPhone可能弃用现在的闪电接口充电器。欧盟表示：“为了减少电子浪费并方便消费者的生活，欧洲议会议员们希望对充电器采取约束措施，使其适合所有移动电话和其他便携式设备。”一旦通过��票，苹果很可能会在全球范围内进行改变。（中新经纬） 教育部推“强基计划”， 2020年起取消高校自主招生 36氪获悉，近日，教育部印发《教育部关于在部分高校开展基础学科招生改革试点工作的意见》。《意见》指出，近年来，自主招生也面临一些新挑战和新问题，我部决定自2020年起，原有高校自主招生方式不再使用，在部分高校开展基础学科招生改革试点���也称强基计划）。强基计划聚焦高端芯片与软件、智能科技、新材料、先进制造和国家安全等关键领域以及国家人才紧缺的人文社会科学领域。 中国电信：5G用户突破800万 在中国电信2020年终端生态合作推进会上，中国电信副总经理王国权表示，自5G商用以来的两个月，中国电信5G用户数突破800万，销售了20款以上的5G终端。用户在办理5G套餐时可以办理副卡，电信此次800万的数据也统计了副卡数。（一财） 36氪每日商业精选 http://dlvr.it/RN4fcz

Rokid AR Glasses Look Promising, But Need More Polish

The Rokid AR Glasses make interacting with augmented reality fairly easy with different gestures, but it could use more time in the oven and more apps before launch. from DDigits WP Feed 2 http://ift.tt/2FmnxFq via IFTTT