As the deaths from the COVID-19 pandemic start to increase, the World Health Organization (WHO) has urged citizens to maintain specific social distances. In an attempt to avoid the spread of COVID-19 at the population level, medical robots or healthcare robots are gradually involved in the roles of sanitizing patients' quarters, distributing medications and supplying meals to ill people. Supplying supplies to households and delivering effective services to injured patients remained a major obstacle, and this is where healthcare robotics is creating a space for them. The new pandemic is growing in demand for healthcare robots as they play a crucial role in the process of drug distribution, patient evaluation, and medical workers' infection control.
The 2002-2004 SARS pandemic has indelibly altered the business climate for healthcare robots. Nearly 8,000 people were affected and 700 were killed. In addition, MERS affected 200 and killed about 40 of them. They were all limited to different territories. COVID-19, on the other hand, as a pandemic, has had a larger influence on the global economy. The SARS and MERS outbreaks contributed to a new era of creativity with the advent of disinfection robots that produce UVD light to combat against infectious viruses and bacteria on hospital surfaces.
If COVID-19 continued to grow globally, UVD robots makers would expand significantly, and if the pandemic was bought under control, healthcare robots would be developed exponentially to decrease the risk of infective infection in hospitals. The healthcare robots market was expected to hit with significant growth rate in 2020-2021. Owing to production reductions and supply distresses, the healthcare robotics demand was minimally affected in 2020. That would contribute to a decline of BPS 180. But the sector is now starting to see blue sky as the main development region such as China is beating the recession and moving up.
Healthcare robots can play a critical role in the current pandemic by reducing human involvement and shielding health staff from infection. This will involve measuring patients' temperatures, disinfecting equipment, measuring specimen swabs and delivering much-needed psychological assistance to patients in isolation. Researchers are now beginning to illustrate the cyclical aspect of technology right after the recession. The COVID-19 contraction would accelerate labor-replacement automation as business sales see a fall. This might have arrived during the 'cultural shock' as automation eliminates low-skilled jobs.
The prospects for healthcare robotics exist in the introduction of smart navigation and the detection of high-risk and highly contaminated environments. Wireless networking systems in healthcare can include drones, telemedicine and decontamination with AIdriven capabilities. Healthcare robotics should see early acceptance in regions first hit by the infection, offering them an advantage. The companies in China are now doubling their revenue production from the previous years. By the time the pandemic is done, robotics should be distributed through a variety of facilities and programs. The manufacturing will experience reshoring, with decreased reliance on countries such as China, and one way to do so would be by robots that would support the robotics industry.
UVD Robots, a Danish corporation located in the University of Odense and Blue Ocean Robotics, is a leading manufacturer of disinfectant robots for China in the fight against the spread of the virus. The firm signed a deal with Sunay Healthcare Supplier in February and has since delivered dozens of its self-driving robots to clean hospitals and other places with ultraviolet light. The firm claimed that this reduces the transmission of coronaviruses without exposing medical workers to the possibility of infection. Since then, the firm has marketed robots to locations in more than 50 organizations, extending its services outside China to places in Europe and the United States that are facing epidemic issues. UVD Robots frequently accepts inquiries from outside the hospital and medical institutions, including prison, offices, production floors, department shops, malls, airports, hotels and restaurants.
Dimer, located in Los Angeles, provides its GermFalcon UV-C robotics equipped to clean aircraft and its UVHammer robotic systems for hospitals and complex settings. In mid-January, the organization provided its services to the first three major U.S. airports where Chinese arrivals took place.
Xenex confirmed that its LightStriken germ zapping robots became the first hotel in the U.S. to sanitize or clean guest rooms and communal areas at the Westin Houston Medical Center. The technique developed by two epidemiologists in Houston will easily kill pathogens, bacteria and fungi by utilizing strong pulsed xenon ultraviolet radiation.
The MTR Company, which runs the Hong Kong subway, has confirmed that it is partnering with Avalon Biomedical (Management) Limited to build the VHP Robot, which stands for the vaporized hydrogen peroxide system. The robot conducts deep cleaning and decontamination in train compartments and stations to secure passengers and workers.
More than 30 disinfection robots developed and manufactured by TMiRob, a company in Shanghai, have joined major hospitals in Wuhan, the hub of the novel coronavirus outbreak, to counter the epidemic. The white robot deployed by the firm has a hydrogen peroxide sprayer on its "front" and nine ultraviolet lamps in its "belly" and can conduct various types of disinfection in areas where humans and machines coexist, navigation hardware allows the system to clear hazards independently.
Beijing-based robotics firm CloudMinds sent 14 robots to Wuhan, China, to assist with medical treatment in the wake of the coronavirus pandemic. Robots, some of which are more humanoid than others, can scrub and disinfect, distribute medications to patients and check the temperature of patients. CloudMinds contributed robotics to a number of medical institutions in China, including the Wuhan Wuchang Smart Field Clinic, which was converted from the Hong Shan Sports Centre.
An Israeli-made AI robotic assistant is being used in hundreds of clinics, community centres, nursing homes and industrial buildings in Asia to eliminate human-to-human interaction as millions of people take precautions for a current coronavirus epidemic worldwide. Israeli company Robotemi, a creator of the Temi robot assistant, claims the device has already been sold to hundreds of locations throughout South East Asia, including China, Japan, South Korea, and Hong Kong.
Twelve sets of robots were provided into an intelligent hospital in Wuhan, China by CloudMinds, a supplier to A3, to support the health workers overstressed and threatened. The robots carried out many important tasks including flagging patients who had a temperature, pulse rate, and blood oxygen rates and medicine at the entrance to the field hospital. Such robots have also cleaned and disinfected the hospital areas and performed fitness exercises for patients with the disease.
In addition, Chinese researchers modeled the arm of a robot on wheels that can ultrasound, swab in the mouth, and hear the noises produced by a patient's organ normally with a stethoscope. The robot will conduct these activities with cameras in the same space without having to provide medical staff. Professor Zheng Gangtie from the University of Tsinghua developed the device.
Unmanned vehicles and other autonomous robots are deployed in China's virus-affected regions. For instance, Beijing JD Logistics has sent two unmanned L4 class vehicles to Wuhan, and engineers have driven the vehicles remotely through the cloud. Another firm, Idriverplus, has donated an unmanned transportation vehicle to Shanghai and Beijing hospitals.
Amazon revealed that it will recruit 100,000 workers to deliver products in vacant warehouses to purchase during the epidemic. The area of e-commerce is now growing with the usage of robots to fill orders and this increase is projected to accelerate as more customers shop digitally, while they remain home more.
The use of video and audio conference software as companies including Zoom, Microsoft (Skype) and others providing interactive meetings services has expanded with millions of citizens still operating at home because of the state and nation lockdowns. However, businesses of telepresence robotics do have greater interest of their apps, but not for the same purposes.
As a consequence of the latest epidemic of coronaviruses, Ava Robotics is building handheld telepresence robots for many years. According to the CEO and cofounder of the firm, the increasing number of hospitals and nursing homes are interested in the robots, which enable the family to talk to patient and older residents on video as a consequence of the policy of 'no visits' and lock-outs in these places.
Owing to the need to be simple to use on one end of the line-an aged or ill user in this situation, Ava robots are distinct from the machine enabled video-conferencing device used on a phone or a computer. The company works to make it simple for robotics setup people to click on a connection and talk to the telepresence robot instantaneously.
In parallel to the robot's operation, hospitals have utilized Ava robotics, primarily for triaging through the coronavirus. For starters, the robot is configured to remotely test patients with Ava robotics after the initial appointment in one of Boston's largest hospitals. It's also the machines that patients use to reach and depart a position often-rather than people, the system will do it to save the medical equipment because a person has to wear a face mask, shoes and gloves every time instead of human operation.
Initially, Czartoski, a practicing neurologist, was utilizing telemedicine in the care of stroke survivors, one of the strongest early lead for telemedicine. According to him, "If I encounter anyone with stroke signs, I will test them with a camera relatively easily to inform them if there is left side fatigue to speech problems, then I will look at the CT scan and the results then make a recommendation for the ER specialist."
Virtual visits are growing in the providence. The non-profit health care network conducted nearly 100,000 virtual appointments in 2019. In 2012, the providence carried out a few hundred telemedical visits a year and was rising at a fast pace — from 12,000 in 2016 to 41,000 in 2018 to more than 100,000 last year. That figure does not explicitly reflect the usage of telemedicine in the ICU.
Pharmaceutical firms tend to work on viral vaccinations or therapies and automation businesses have developed electronic tools to further simplify manual and replicate processes over the years. The robotics firms also provide options for businesses seeking to combat the COVID-19 virus.
The two new modular, ready-for-assay workstations, focused on the Microlab STARlet liquid handling system, were announced recently by Hamilton Group. The latest technologies will help render the SARS-CoV-2 coronavirus that triggers the current COVID-19 quick and highly effective diagnostics, and research-based testing, said the firm.
The MagEx STARlet allows the extraction of biological samples from high-performance RNA-based magnetic beads, the PCR Prep STARlet workstation is pre-configured and eligible for sample deployment utilizing recent protocols from the centers.
Furthermore, the robotics designed by businesses is actually being employed in the war against coronavirus. ABB robots can be seen in this ABC news story to help a medical laboratory with the development of COVID-19 research kits.
The new pandemic will be targeted by health-care device vendors. They will be aligned on developing, unregulated markets with tech firms, stressing the value for national emergencies of healthcare robots. Many industries such as Enterprise Resource Planning (ERP) for higher profit margins are often impacted, in combination with robotics. Medical personnel's are predicted to become a potential phenomenon in patient events, raising the incidence of disease infections. According to the International Federation of Robotics (IFR), the shipments of medical robots already have increased by 50% in 2018. The outcome of coronavirus, however, illustrates some of the essential situations in which robotic systems may be disinfected, tracked, controlled and supplied.
The World Robotics study shows that Europe is the most robot-densely inhabited region in the world with an estimated size of 114 units per 10,000 employees. In Edinberg in the United Kingdom, robotic engineers are operating on what they believe is the first safety device to speak to more than one human concurrently. The initiative was planned to support disabled citizens. Scientists say that the discovery will aim to counter potential waves of diseases such as the pandemic.
Throughout the United States, the COVID-19 patients are housed at the Providence Community Medical Center throughout Washington in remote locations with two rooms. A robot, which has a microphone, a stethoscope and a camera, is being used by physicians. It helps doctors to interact individually with patients without touching.
Disinfection UVD robots in China has been widely searched after as a consequence of the outbreak. The robot built by Denmark's blue ocean robot is ordered by a significant number of hospitals in the world. In the epidemic epicenter of the Wuhan outbreak, these robots played an important part.
As time passes, robotics plays a significant role in fighting diseases such as COVID-19, similar to other technologies. Robot technologies will play a significant role not just in aiding patients but also in maintaining the wellbeing of physicians and healthcare staff in the case of an epidemic.
The crises are changing views on what is feasible in terms of innovation and strategic intervention on the part of both private and policy players. When the COVID-19 pandemic is finished, the variety of technologies and industries are built into robotics.
The virus was a successful chance for businesses to show robotics for public applications. One of the most common is the installation of mobile unmanned ultraviolet (UV) light platforms to disinfect facilities. Danish business UVD Robotics is taking advantage of this potential and is increasing the application of robotics to clean hospitals. The U.S. based Germ Falcon provides identical UV disinfection approaches for airplanes, while Chinese TMiRob deploys UV disinfection robots in Wuhan. "Automation of disinfection is a vital aspect of preserving health and safety and maybe one of the big bright points in reaction to COVID-19.
In the near term, the policymakers would need to improve their defense apparatuses as well as the effectiveness of their medical services in order to implement quarantine mandates. The robots should be crucial to doing this by disinfection, tracking and surveillance. Throughout the long run, COVID-19 is contributing to a major reassessment of the worldwide supply chain in production.
America's reliance on Chinese imports of essential machinery and drugs is becoming a controversial problem, and policy officials are now seeing the crisis as an incentive to revitalize the drive to re-launch more manufacturing resources on the domestic sector. Whether that turns into more drastic intervention by policymakers to diversify or re-land the output of key products, it may very well bode for the robotics sector, because these reforms will entail substantial rises in CAPEX and efficiency gains in developing countries.
Instead of the infectivity of COVID-19, it is better if human-to-human interaction is minimal. Since robots are free for contamination, software companies such as JD.com and others have invested to get more robots marching down the main street to provide medical equipment in healthcare settings. The robots often end up becoming critical when providing vital items to individuals who order and purchase digitally and are lonely at home.
Meituan Dianping, a logistics platform, is growing the 'contactless shipping' choices by automated vehicles and robots. Shenzhen-based company Pudu Technology aimed to reduce cross-infection by introducing a robotic home distribution of medications and food.
COVID-19 poses a nightmare for robotic manufacturers designing applications for emerging economies in the automotive, construction and supply chain industries. But for vendors targeting markets which that are closer to government, such as safety, education, and protection, this is a great opportunity. Whitton advises that 'the market players create tailored solutions for non-manufacturing use cases or aim to create integrated solutions to allow scale-up in the manufacture of medical supplies. To mobile robotics manufacturers and tech firms pursuing more global markets, this is a perfect chance to demonstrate the role of healthcare robotics in solving national crises as well as alleviating economic shock.