Autonomous Virus-Killing Robots Fight COVID-19

Robot prototype uses Intel® Movidius™ Vision Processing Unit to navigate while sanitizing with ultraviolet light.

Stevie typically spends his days entertaining in a retirement community. On any given day, he’ll sing, lead a dance group, ask residents about their day, rattle off a painfully corny joke—whatever it takes to lift spirits.

Similar to other healthcare workers facing a global pandemic, Stevie had to learn new skills to lend a hand. But unlike his colleagues, he was able to shed his 4-foot 7-inch humanoid appearance and reboot as “Violet,” a prototype of a new robot that combines two superpowers: Using AI to navigate spaces and ultraviolet light to destroy bacteria and complex viral strains.

Germ-killing Violet and social robot Stevie are both creations of Akara, an Irish startup that specializes in designing artificially intelligent helpers for the healthcare industry. Akara engineers moved quickly to join in the fight against the coronavirus, teaming up with Intel to spin off the core technology of Stevie with the goal of assisting hospitals with faster, more effective sterilization.

AI on a New Wavelength
A certain range of ultraviolet light known as UV-C has been clinically proven to kill complex viruses and bacteria and has been used in hospitals for disinfection processes for the last decade.

Though there hasn’t been any conclusive research on the effects of UV-C on the SARS-CoV-2 virus that can cause the COVID-19 illness yet, studies have shown that it can be used against other coronaviruses such as SARS-CoV-1.1 The UV-C radiation warps the structure of a virus’s or bacteria’s genetic material and prevents the viral particles from reproducing. Early findings from studying UV-C’s effectiveness against SARS-CoV-2 at Columbia University’s Center for Disease and Immunity have been promising.2

Violet’s compact size and ability to operate safely amongst people makes it suitable for tasks outside the hospital as well.

UV-C robots have been used to sterilize hospitals, but most aren’t designed to work with humans in the room. Their bulky size makes it difficult to navigate crowded spaces and reach shadowy areas. They blast light that can be dangerous to humans in large doses, requiring rooms to be vacated for the safety of healthcare workers or patients since exposure to the light can be harmful, causing sunburn, eye damage, and even skin cancer.

In order to detect and avoid humans in the room, the Violet prototype is designed to use motion sensors, an Intel® Movidius™ Vision Processing Unit and a Luxonis DepthAI platform for AI, depth, and feature tracking. This allows the slim and nimble Violet to work around the people in the room, navigate to shadowy corners, clean surfaces and automatically switch off before anyone enters her limited field of ultraviolet rays.

Stevie needed computer vision to navigate a room and face a person talking to him, critical skills in order to be socially interactive and appear engaged. The Akara team joined an Intel-funded incubator in January 2020, where Movidius and Luxonis worked with them to build out advanced perceptual faculties for Stevie.

When the COVID-19 pandemic hit, the whole team sought a way to help. Following discussions at the incubator, Akara’s engineers sprinted to assemble a Violet prototype in only 24 hours. They adapted Stevie’s computer vision capabilities to ensure Violet could steer clear of human interaction.

“In some ways, Violet’s ‘person-detector’ has been easier to activate,” said Jonathan Byrne, a senior software developer at Movidius, which has been working closely with Akara on the robot. “Stevie needed to do 10-15 things, while Violet needs to do much less: clean and avoid people.”

Cutting Cleaning Time Without Cutting Corners
Violet doesn’t represent the first attempt to replace traditional, manual disinfection techniques.

Some hospitals today use other “no touch” approaches with chemical-based disinfectants, which are effective, but require evacuating rooms for much of the day.3For example, hydrogen peroxide vapor can take more than five hours to fully disinfect a room before people can safely return to work in the area. And it simply can’t be applied in some hospital rooms.

Health systems around the world are already seeing long waiting lists for medical imagery and the slowdown only exacerbates cost pressure on hospitals. For example, radiology presents unique challenges: in many cases, high-tech equipment like CT scanners can’t be treated with deep chemicals and must be cleaned by hand, a process often done by the radiographers that takes up to 1.5 hours for every 15 minute procedure.

Expecting to be ready for hospitals by mid-2020, Violet was recently tested disinfecting CT scanners and isolation rooms in Ireland in order to reduce long downtimes due to the disinfection process. Akara found that the robot could speed things along and spare healthcare workers a potentially dangerous task of manually disinfecting rooms.

Violet’s compact size and ability to operate safely amongst people makes it suitable for tasks outside the hospital as well. The prototype is currently being tested for Dublin’s public transit system, and it’s also shown potential for disinfecting other high foot traffic, hard-to-clean spaces such as bathrooms, airports, hotels, cruise ships and waiting rooms.

“For the COVID-19 outbreak, we’re still in firefighting mode. What we’re focusing on is hospitals and nursing homes, where people are coming in and out every day,” said Niamh Donnelly, Akara co-founder and director of AI and machine learning.

But she acknowledges Violet may soon be needed elsewhere.

“As people are going back to work, holidays, and trying to resume their lives, the areas where Violet will be needed will change. We get more than 10-20 emails a day from different industries asking about a robot like Violet.”

Engineers are already exploring other applications of computer vision to control the spread of COVID-19. Using the Intel® Distribution of OpenVINO™ toolkit, engineers have found success monitoring the usage of masks (good and bad) and adherence to social distancing guidelines.4

Rays of Hope
In a world that is more vulnerable to pandemics, academics are looking to robots like Violet as playing an essential role in ensuring population safety.5 Future use cases are already clear: Robots like Stevie and Violet could be further adapted to use computer vision to monitor social distancing, ensure compliance with personal protective equipment (PPE) rules, and even perform contact tracing. These capabilities are currently being explored with open source artificial intelligence on the Intel® Distribution of OpenVINO™ toolkit.6

In the early stages of crisis response, much focus has been on the development of rapid response-tests and a vaccine. This work is profoundly important, but other innovations are required in the meantime. This experience has taught us the urgency of making every hospital pandemic-ready, for the sake of both patients and frontline workers. We need all the help we can get, human or not.

Explore Related Products and Solutions

Intel® Xeon® Scalable Processors

Drive actionable insight, count on hardware-based security, and deploy dynamic service delivery with Intel® Xeon® Scalable processors.

Learn more

OpenVINO™ Toolkit

Build end-to-end computer vision solutions quickly and consistently on Intel® architecture and our deep learning framework.

Learn more


英特尔® 技术的特性和优势取决于系统配置,并可能需要支持的硬件、软件或服务激活。实际性能可能因系统配置的不同而有所差异。没有任何计算机系统能够保证绝对安全。请咨询您的系统制造商或零售商,也可登录 获取更多信息。// 性能测试中使用的软件和工作负载仅在英特尔® 微处理器上针对性能进行了优化。SYSmark 和 MobileMark 等性能测试使用特定的计算机系统、组件、软件、操作和功能进行测量。上述任何要素的变动都有可能导致测试结果的变化。您应该查询其他信息和性能测试,以帮助您对正在考虑购买的产品作出全面的评估,包括该产品在与其他产品结合使用时的性能表现。如欲了解更多完整信息,请访问。// 性能结果基于配置中所规定日期的测试,可能无法反映所有公开的安全更新。有关详细信息,请参见配置信息披露。没有任何产品或组件能保证绝对安全。// 所描述的成本降低方案仅用作示例,表明某些基于英特尔® 的产品在特定环境和配置下会如何影响未来的成本,并节约成本。环境各不相同。英特尔不保证任何成本和成本的节约。// 英特尔并不控制或审核本文档引用的第三方基准资料或网站。您应访问引用的网站,确认参考资料准确无误。// 在某些测试案例中,结果以英特尔内部分析或架构模拟或建模为基础来评测或模拟,且仅供参考。您的系统硬件、软件或配置的任何不同均可能会影响实际性能。


4Intel is committed to respecting human rights and avoiding complicity in human rights abuses. See Intel's Global Human Rights Principles. Intel's products and software are intended only to be used in applications that do not cause or contribute to a violation of an internationally recognized human right.