Softbank Holds Back the Production of Pepper Robot

Robot

Farewell to Pepper, the world’s first social and friendly humanoid robot.

Pepper is the world’s first semi-humanoid robot, which is manufactured by SoftBank Robotics. This robot has been designed with the ability to recognize faces and read basic human emotions. Pepper also has the ability to interact with people through conversation and his touch screen. Recently Pepper is being used as a receptionist at several offices and is able to recognize the visitors with the help of a face recognition sensor. The robot has also been used at banks and medical facilities in Japan.

Pepper is a friendly and social humanoid robot that was designed to be a companion in the home and help customers at retail stores. It talks, waves, and makes everyone smile. It can dance, it can speak, and also do certain tricks. Pepper is not a functional robot for domestic use. Rather, Pepper was created with the intention to make people enjoy life, improve people’s lives, simplify relationships, have fun with people and connect people with the outside world.

The robot’s head has four microphones, two HD cameras (in the mouth and forehead), and a 3-D depth sensor (behind the eyes). There is a gyroscope in the torso and touch sensors in the head and hands. The mobile base has two sonars, six lasers, three bumper sensors, and a gyroscope.

Pepper is available today for businesses and schools. Over 2,000 companies around the world have adopted Pepper as an assistant to welcome, inform and direct visitors in an innovative way.

However, the production of this semi-humanoid robot has been suspended by SoftBank. The corporation decided to pause the production at least for now until there is a need for more.

Back in 2014, Softbank began manufacturing Pepper (the humanoid robot) but it could only make 27,000 models. Also, the price for the robot was considered too high for the educational and research facilities. Though Pepper seemed to be independent it was often controlled remotely. Pepper has largely failed to meet its promise since its introduction to the world which was 7 years ago. But in some way or the other, Pepper has inspired the future generation of robot engineers.

The price of the robot was $1,600 for the consumers in Japan and for the universities and businesses, it was over $20,000. This appeared to be a bit expensive for the small businesses. Its sales suffered a huge loss from the limited functionality of the robot and unreliability. The use of that robot is quite limited because other than recognizing people and looking impressive, what can it actually do? ” Further, the robot wasn’t incorporated with more features by the Softbank because of its clashes between its French Robotic Project and its Tokyo management. This extremely affected the development of Pepper, the humanoid robot.

Pepper was not given much priority as the Softbank shifted its focus to the robot Whiz. In 2018, SoftBank announced a more practical robot called Whiz, which cleans floors for businesses. Even though Pepper can move on wheels, but it typically stays in place and therefore lacks the superiority of Whiz’s movement.

Pepper was introduced as an attempt to bring some of the technologies that are underlying to a broader commercial audience. Pepper was made pint-size and it was created and designed to greet people.

However, Softbank has temporarily suspended the production of Pepper but they are ready to resume anytime depending on inventory situations.

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How Robots will Affect Human Life?

Regarding the impact of robots, there is a major debate among people about whether their effect would be positive or negative. The use of robots is growing around us. The following article aims to list the major effects robots will have on human life.

Free-up Workload

Robots generally complete work that is monotonous or strenuous for human beings. The aim of making robots is not to replace humans, but it is to free them from the tedium of performing most of the basic and low-level tasks. Tasks like coordinating schedules or managing correspondence do not require human intelligence and they can be easily done by robots. It would leave humans to do more important work that would require human intelligence.

Cheap and Convenient

Robots can bring down the cost of goods and services because it would decrease the price of labour. It would give a greater number of people access to things that might have previously been out of their means. Certain jobs, like crop planting and harvesting, require a great deal of physical strength and fortitude to perform. They also tend to be harder to do. Robots can do all of this work. Robots can perform a lot of work like helping in the farm works, doing the labour work in industries and other works that take a lot of time. Robots doing these tasks will help in reducing the cost of human labour.

Better Availability of Goods and Services

Robots can make ten times more goods and services than human labour, which would increase the rate of production and the availability of everything to people. For example, if human labour can make ten bowls, a robot would make 100 bowls in its place, which would help a lot more people to have the benefit of using bowls. On the other hand, it would also reduce the manufacturing cost of the bowls and it would make prices of the bowls cheaper. In effect, it would make those products available to people in large numbers.

Balance in Work and Personal life

Having help from robots in their everyday work, people will have more balance in their work and personal life. Those who would lose their job due to the automation systems would be able to find new positions and learn new skills. It would also help them to understand the real value that human employees bring to the organisation.

Household Service

Robots can immensely help in doing household chores that would save a lot of time and energy. People will be able to concentrate on valuable ways to spend their time. They will also have a lot of free time to do things they like instead of wasting their time cleaning and cooking.

Healthcare Services

When it comes to healthcare, robots can provide more accurate results in tests and diagnosis than humans. Robots are now used not only in the operating room but also in clinical settings to support health workers and enhance patient care. During the COVID-19 pandemic, hospitals and clinics began deploying robots for a much wider range of tasks to help reduce exposure to pathogens. It’s become clear that the operational efficiencies and risk reduction provided by health robotics offer value in many areas.

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Advancement In Artificial Intelligence: Rise of the Robots

Artificial Intelligence

Innovation in artificial intelligence led to the evolution of smarter robots.

A robot is a machine that is programmed by a computer. It is capable of carrying out a complex series of actions automatically without human intervention. A robot can be directed by an external control device, or the control may be inserted within it. Robots are created to stimulate the human form. Most robots are task-performing machines, designed focusing on sharp functionality, rather than expressive aesthetics.

Since the covid-19 pandemic, the world has changed entirely. The entire globe has become dependent on technology so as to stay connected and get the work done more than ever before. Robots have evolved as a safer option as social distancing has become the norm. Robots have become an essential part of everyday life.

Robots are not a mechanical body which is unachievable, rather it is a computer-based artificial brain that is still well below the level of elegance needed to build a human-like robot.

Robots as Customer Service Mechanism

ING, the bank’s robotics team in Poland has launched a service called SAIO, which is an AI-powered solution that enables companies whether small or medium-sized to robotize their business. SAIO can be used to mechanize financial processes and also, it can be put into work in other areas of a company like HR, logistics where the administration is needed.

A Robot that Cleans

Since Covid-19 it has become more important to clean rooms and with social distance, one has to do the cleaning work by oneself. But some robots are being used to clean and disinfect homes and hospitals. To kill all types of viruses and bacteria, companies like UVD Robots, Xenex, Tru-D, Puro Lighting, and Surface are using ultraviolet-C light. In New York Puro’s UV lamps are being used to clean subway cars and buses. In India, Milagrow introduced three new robots, Milagrow iMap Max, Milagrow iMap 10.0, and Milagrow Seagull to clean homes with a touch of a button. These robotics mops not only clean the house but can clean themselves too. Further, some robots have arms that can pick up items, open drawers, move objects, and even open and close doors without any physical contact and also, sanitize the room with UV light and chemical hydrogen peroxide spray.

A Robot that Reads

This is something that is completely different. Already software bots have existed for many years which have the ability to automate repetitive, algorithm-based computer tasks by simply imitating the way humans work with applications. But now comes something smarter, a robot that can read. ING has been developing a smart robot which is an intelligent content service. Such robots have been trained to recognize information in a document like an invoice or payslip and this is done by using AI algorithms. This simplifies the work of the customers as well as the service provider. Also, it is not just a document it can read, rather photos, chats, and other content can be processed automatically in this way.

A robot that Can Cook

With digital transformation taking place rapidly, now there are technologies that are surprising. There are robots that cook. It can flip a burger, make a cup of coffee, etc. In India, Rebel Foods uses a fusion of software, robotics, and automation to prepare food. It uses robotics-led smart friers which identify the shape of the food and based on that shape can regulate the oil temperature automatically without human intervention. The company also uses a Visual AIQC Machine, called a SWAT machine which stands for Size, Weight, Appearance, and Temperature. Every dish prepared is put on a machine that scans it and accepts or rejects it accordingly. Also, some robots can make burgers while the staff is busy taking orders online or cleaning their restaurants.

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Robotics At its Next Level Featuring a Robot That Can Eat Trash

Robotics

The world of robotics has changed our lives in exceptional ways. From cooking, reading, customer service to assisting the healthcare industry, robotics has paved the way which is beyond excellence. Now it has stepped towards another level of innovation, a step towards cleaning oceans. Considering the vastness of our oceans, it covers more than 70% of the Earth’s surface. To preserve the ocean, robotics brought Jellyfishbot, a robot that eats trash.

The picturesque port at Cassis, southern France, has discovered the perfect solution to plastic bags, discarded beverage bottles, and even food wrappers, floating in the water among the boats in the marina. The solution is a bright yellow-colored remote-controlled electric powered boat that dodges around the harbor pulling the trash into a net that it trails behind its twin hulls. This robotic boat is called Jellyfishbot. It is about the size of a suitcase which enables it to get into the corners and small tapered spaces which are difficult for the cleaner with nets to reach. The Jellyfishbot is now operating in around 15 French ports and also has been exported to countries including Japan, Norway, and Singapore.

The boat has the power to go anywhere. The boat is created by IADYS. Looking into this, San Diego non-profit Clear Blue Sea is developing a proto-type trash-collecting robot called “FRED”. A marine technology firm based in the Netherlands, RanMarine, has also developed a robot called the “Waste Shark” which has been established to clean up garbage in Rotterdam harbor.

The boat has a radio-controlled guidance which is of 400 m (1300 ft) range with a dimension of 0.7 x 0.7 x 0.5 m (2.3 x 2,3 x 1.6 ft) weighing 18 kg (40 lbs). The battery level of the boat can be read via smartphone applications like Bluetooth. It is waterproof and robust. It can be easily handled by one person and has high cleaning performance.

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Top 10 Cloud Robotics Start-ups to Keep An Eye On

Cloud Robotics Startups

Check out 10 top rising cloud robotics start-ups

Cloud robotics is an area of robotics that attempts to entreat cloud technologies such as cloud computing, cloud storage, and other internet technologies. It is not an easy task to run a cloud robotics start-ups. But it is amazing to see the rising number of start-ups specializing in cloud robotics. These start-ups are seen to work on innovative technologies.

Here is the list of 10 cloud robotics start-ups that are working on the innovation of technologies and products.

Graphcore

It was founded in 2016. The company is situated in the United Kingdom. The company’s IPU accelerators and popular software together make the fastest and most ductile platform for current and future machine intelligence applications, which lowers the cost of AI in the cloud and datacentre, improves performance and efficiency by between 10x to 100x. Graphcore systems shine at both training and reasoning. The highly collateral computational resources along with graph software tools and libraries enable researchers to explore machine intelligence across a much wider front than current solutions. This technology lets recent success in deep learning evolve rapidly towards useful, general artificial intelligence.

Arctoris

Arctoris was founded in 2016 and is headquartered in the United Kingdom. Arctoris collaborates with biotech and pharma companies as well as academic centres, enabling drug discovery projects to be run using advanced robotics. The technology platform can not only be used for screening but has been developed for all laboratory processes on the way from target to hit and lead and beyond, comprising a wide range of techniques in cellular and molecular biology as well as biochemistry/ biophysics. Arctoris pursues its own internal drug discovery programs, and also offers select researchers and entrepreneurs access to their platform to run drug discovery projects with the efficiency, accuracy, and precision enabled by end-to-end automation.

INVOLI

The company was founded in 2017, Switzerland. INVOLI serves in building infrastructure that enables drone revolution, ensuring their safe consolidation into today’s aviation world and avoiding collisions with aircraft. It offers an online platform, which collects data from a network of scaled-down control towers gathering maximum information on the position of every flying object in the sky, manually or automatically. Its technology enables everybody to see the air traffic encompassing them and take the most appropriate measures. Thus, what INVOLI brings to the aviation world is intelligent air traffic instruments and automatic collision avoidance tools, allowing low-risk flight plans and avoidance strategies and thus creating a safer, smarter sky for all.

Salty Cloud, PBC (Public Benefit Company)

It was founded in March 2017 in, USA. The company offers next-generation security automation technology to assist organizations around the globe to protect their cyber adversaries. Today, the company provides three security & risk automation tools to the public. It continues to find ways to provide free versions of its tools for educational institutions, state & local governments, and non-profits. One such offering is Dorkbot, the web vulnerability scanning service.

Bright Machines

It was founded in 2018 in, USA. The company aims at making manufacturing smarter and more efficient. It merges intelligent software with flexible factory robots and machine learning to help the customers deliver the next-generation products

Soar Robotics

The company offers independent operations at scale for urban and industrial applications with seamless connectivity and cloud intelligence. It uses hyper-realistic visual and physical simulation environments to safely test hardware by recreating real-life scenarios in virtual worlds. It helps in executing custom applications for proprietary use cases.

Freedom Robotics

It was founded in 2018, headquartered in San Francisco. Freedom Robotics integrates development and management tools in its cloud-based robotics management software (RMS) to help in prototype, creating, operating, and scaling robot fleets.

Covariant

It was founded in 2017, headquartered in Berkeley, Calif.

Covariant is creating AI called the “Covariant Brain” to make robots smarter. Covariant is competing directly with other cloud robotics start-ups such as Kindred and RightHand Robotics. Its technique is to use a variety of AI methods to train its robots, including reinforcement learning. It merges that with an off-the-shelf robot arm, a suction gripper, and a simple 2D camera system.

Aitomation – Workflow Automation

This company leverages robots (physically and virtually) for automating specific tasks. It utilizes the power of cloud computing and process automation to create and modify cloud robotic solutions. The company develops software robotics solutions, lean strategies, artificial intelligence (AI), and low-code applications, as well as cloud services. It allows the automation of long workflows and processes that run across multiple systems and organizational extremities.

RosHub – Robotic Fleet Management

It is a US-based start-up. It develops connectivity solutions for robot fleets. The company is also involved in prototyping, testing, and applying robotic solutions in unstructured public spaces. It allows the link of an open-source ROS (robotics operating system) that is combined efficiently with the support of existing tools and APIs.

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Top Robotic Companies that Received Funding in July 2021

Robotics Companies

Robotic technology will shape the world for better efficiency.

The Robotic Industry is changing the landscape of work in the modern era. Right from automation in every industry to autonomous surgeries in healthcare, robotics is now becoming capable of handling intricate responsibilities and repetitive tasks and perform them without errors. This is one of the reasons, industries are increasing their dependency on robotics. While this indicates the future of the industry, many organizations and startups are leveraging this demand to create innovative solutions.

Here are the robotic companies that received funding in the month of July to carry on their work and research.

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1. Realtime Robotics

Realtime Robotics is an autonomous industrial robotics company. The company offers real-time, collision-free motion planning that enables users to leverage robotic control technology to navigate applications. With just minimal programming, users can control the functioning of robots across multiple deployments. Realtime Robotics raised US$31.4 million in its Series A round. The funding was led by HAHN Automation for the purpose of improving robotic capabilities.

2. Verve Motion

Verve Motion pioneers connected wearable technology for the industrial sector. It accompanies robotics into functional apparel and boosts worker safety and wellbeing with their technology. The company recently announced that it has raised US$15 million in Series A funding which was led by Construct Capital along with Founder Collective, Pillar VC, Safar Partners, OUP, and other angel investors.

3. Seoul Robotics

Seoul Robotics is a 3D computer vision company that innovates intelligent robotic perception systems using artificial intelligence and machine learning. The company’s first commercial model, Discovery, made its debut in the US market, earlier this year. It is an all-in-one sensor and software platform that expands access, reduces costs, and simplifies the implementation of LiDAR-powered solutions in several applications for smart cities, smart, factories, and logistic mobility. Seoul Robotics was selected as an Innovative Icon startup for all its efforts and received a US$12 million investment from the Korean Government.

4. Fetch Robotics

Not so much of an investment, but a business firm, Zebra Technologies is planning to acquire Fetch Robotics, a cloud-driven autonomous mobile robot startup. This acquisition aims to boost Zebra Technologies Enterprise Asset Intelligence vision and growth in industrial automation. This will align with Zebra Technology’s focus on robotics and change the infrastructure of the industry with seamless integration.

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Customizing Soft Robots in a Universal Way

Soft Robots

Soft robotics is a developing area that depends on replicating the locomotion processes of soft things found in nature in order to accomplish smooth and complicated motion. Earthworms, reptiles, larval insects, crabs, and eels are among the “soft bodies” that can navigate in complicated settings and have developed a wide range of techniques from which we may learn.

Let’s dig into more details to learn more about the topic.

What are Soft Robots?

Soft robots are largely made of readily malleable matter, such as fluids, gels, and elastomers, which may match specific materials in a process known as compliance matching. The idea of compliance matching states that materials that make contact with one other should have similar mechanical stiffness in order to transfer internal load uniformly and reduce interfacial tensile stress. This principle, nevertheless, does not applicable to rigid robots (E=109Pa) engaging with soft materials (E=102-106Pa), causing serious damage or mechanical immobility. These kinds of interactions with soft materials are common, for example, with natural skin, muscular tissue, and sensitive interior organs, but also with creatures, artificial predictor variables of biological functions, and so on. Because of this huge disparity in mechanical compliance, it’s simple to assume that stiff robots are unsuitable, if not hazardous, for close human engagement.

Applications of Soft Robots

Aside from being soft, these robots have a slew of other significant advantages. Soft robots are mechanically biocompatible and capable of realistic functions because they are made of materials that suit the flexibility of biological material (such as human skin and tissue). Furthermore, soft robots employ materials that can alter form and elastic rigidity, are lightweight, and are well-suited to close human contact: pleasant, soft enough to avoid injury, biocompatible, and obedient. These characteristics have the potential to result in a plethora of intriguing new technologies across a wide variety of social, scientific, and industrial projects in the area.

The majority of these applications should fall under the purview of the biological discipline. Soft robotics implementations in the medical field range from big size robots such as soft portable robots, soft prosthetic limbs, and co-robots (assistive robots that collaborate with human partners) to miniaturised robots for field discovery, drug delivery, minor surgery, and medical implants. Human motor aid utilising soft wearable robots may be the first to be effectively deployed. This new form of robot will help people who have muscular weakness or who have physical or neurological problems.

For individuals with gait problems such as drop foot, a soft dynamic ankle foot orthotic (AFO) might assist avoid foot dragging. Soft hand prosthetics with artificial muscles, like the AFO, have started to be used to provide helpful mechanical assistance in the fingers and wrist. The web address of cardiac simulators, which simulate the motion of the heart, has also been investigated. These synthetic muscles are developed on McKibben actuators, which are made up of an inflated balloon wrapped in a braided shell of woven inextensible fibres.

In terms of “second skin,” the development of various soft exoskeletons has started, and their applications are diverse. As previously said, this new form of robot would be beneficial to people suffering from movement problems, the aged, as well as warriors, firemen, paramedics, and anybody who needs to carry large items. Exoskeletons have been created with hard connections in tandem with biological anatomy for years to improve the wearer’s strength and flexibility while shielding them from physical stress and damage. These robots, though, were not well-suited to the smooth and complicated motions of the human body, were hefty, and took up a lot of room. Alternatively, these new soft wearable robots function by using pneumatic air artificial muscles (McKibben actuators), are compatible with human movements, and are lightweight.

Singapore University of Science and technology and Design scientists have created a unique automated technique for developing and producing customised soft robots by merging two separate approaches into one integrated workflow. Their approach, which was described in Advanced Materials Technologies, may be extended to various types of soft robots, enabling their mechanical characteristics to be modified in a simple way.

Though robots are frequently represented as stiff, mechanical constructions, a new class of flexible devices known as soft robots is gaining momentum. Soft robots, which are inspired by the flexible shapes of biological beings, have a wide range of applications, including sensing, locomotion, object grasping and manipulation, among many others. However, such robots are currently primarily made using hand casting processes, which limits the intricacy and geometries that can be produced.

Tailoring Soft Robots

“Most fabrication techniques are primarily manual, leading to a shortage of standard tools,” stated the study’s lead author, SUTD Assistant Professor Pablo Valdivia y Alvarado. As per Dr. Valdivia y Alvarado, embedded 3D printing—in which several material inks are extruded in a supporting matrix—is particularly well suited for the fabrication of soft robots composed of numerous materials or composites. To guarantee that these robots are constructed properly, the team resorted to topology optimisation (TO), a technique in which mathematical models are used to design customised structures within a set of restrictions.

The authors believed that by automating these two essential stages in a single framework, they might create an integrated workflow for manufacturing customised soft robots while minimising potential mistakes along the way. The scientists employed a swimming automated system inspired by batoids for the investigation. The workflow begins with the definition of the robot’s fin shape, followed by the application of TO to create the appropriate structure with the necessary characteristics within the specified material and motion restrictions. The optimal solution is then converted into code, which is processed by the squad’s custom-built 3D printers, which build the robot.

The batoid-inspired soft robots were intended to withstand the severe circumstances of the maritime environment, with the strategy focusing on modifying their fin composition and analysing how these modifications may affect the manufactured robot’s swimming ability.

Furthermore, three types of fins were developed, with two fins composed of soft and rigid materials, correspondingly, and a third fin built using TO and merging the two materials. Apart from the first two composite fins, which were manufactured using conventional methods, the third composite fin was created utilising an integrated workflow. The soft robot with the improved composite fins was 50% better than its equivalent with the normally casted soft fin, and marginally quicker than the robot with the solid fin. Dr. Valdivia y Alvarado highlighted that their process for constructing optimised, multi-material soft robots may be globally adopted to build additional soft robots after successfully demonstrating the efficiency of their method.

Conclusion

Soft robotics uses tangible technical concepts to address the difficult issues of self-organization, self-assembly and self-stability and it also anticipates real-world evolutionary and adaptive robots. The subject of study is still in its infancy, and the focus is now on the discovery of unusual materials and their use in robotic systems. Soft robotics, on the other hand, is bringing us new scientific concepts and techniques that help us better comprehend embodied intelligence.

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Time for a Robot CEO? With advancing Artificial Intelligence?

Artificial Intelligence

Can there be threats and job losses due to a robot CEO?

Back then Alibaba CEO Jack Ma made it to the headlines for proclaiming the arrival of robot CEO. He stated at a conference in China that we are only a few decades away from having robots run our companies. He also predicted in a television interview that it would take 30years, where a robot would get to the cover of Time Magazine. Alibaba is not only the one predicting it but SoftBank CEO Masayoshi Son at a Mobile Conference 2017 predicted that machine learning will take over at a great speed by 2047.

The job market will suffer if this is the case with the rise of robotics and artificial intelligence. The report published by Nesta in 2018 predicts that 40 to 60% of job loss would occur due to robotics and artificial intelligence by 2030. This is because companies are turning towards automation in every field and sector.

A robot CEO is different. Since they can work for longer hours without any breaks in between, they are very accurate in terms of output. But when it comes to Human CEO’s they need breaks and also there are chances for miscommunication and errors. Humans are emotional beings, unlike robots which can sometimes affect the efficiency of the work and the environment. In terms of this, a robot CEO can make a huge difference.

Besides this, we also have some pitfalls as a robot CEO does not possess emotional intelligence and it can be difficult to handle people. The other worrisome element is that there are high chances of tampering or hacking since it is computer built and designed. This can in turn lead to many more events that can affect the company in all ways.

Difference Between a Robot CEO and Human CEO

Human CEOs can also have pitfalls such as getting corrupted or being influenced easily. But at the same time, the CEO has freedom and choice to make their own decisions and challenge their obstacles.

But a robot CEO is unlike this, it can be brainwashed with just a click of the button by cyber-attackers. This means the whole of the company’s data and programming is just lost, there is no security to it in any way. The robot CEO cannot take decisions on its own in any way, it has to be again operated or programmed by humans. The Kaspersky Lab researchers feel that a robot CEO can be intriguing, as they come with a lot of concerns that may ruin the company with just a click. Cyber Attackers are pulled towards money and if the robot can get it easily then, they are likely to exploit this situation and grab all the chances of collapsing the company.

For instance, a firmware level attack was seen in 2015 when Kaspersky Labs discovered the Equation Group APT, which was a huge threat that was hard to detect. This threat could attack robots that can perform critical decisions and are capable of influencing them. This can be the greatest challenge to robots.

A robot CEO has both concerns as well as points to back up the arguments, but a biological CEO is always a plus to the company and a robot CEO can assist a human CEO that can collectively uplift the company to great heights.

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Apocalypse or Opportunity? Reimaging the Future of Drones & Robots

Drones

The future of drones & robots is expected to unravel a new world of opportunities with a cost

Whether we call them invasive or human aids, the fact that drones and robots are helping mankind better our performance remains the same. While the current age of technology is already good enough to give goosebumps, it is a necessary step to look ahead of time and anticipate what 2030 or maybe 2050 holds for us. Besides the domination of artificial intelligence and other technologies, the future of drones & robots is expected to unravel a new world of opportunities. But there is no assurance that whatever waits behind the door is not a dystopian future.

Today’s technology has shifted robots from being lifeless machines that obey commands to human-friendly technology that is compensating human labor. They have become a key link in a dynamic continuum that encompasses humans, other machines, and the digital environment in which they operate. With the introduction of the fourth industrial revolution, the dominance of drones and robots has further intensified. Technology has reshaped the way artificial intelligence, machine learning, the Internet of Things (IoT), and robotics could work along with people. Boring tasks like data entry, answering customer queries, delivering products, etc are assigned to be carried out by automatic machines. Big data on the other hand is evolving to be the power behind every strong business decision. Altogether, the disruptive technologies along with the opportunities of industrial evolution have got our hopes high regarding the future of drones & robots.

Fundamentally, three major changes including increased collaboration increased autonomous mobility, and increased intelligence is changing the tailwind of how drones and robots function. Initially, they emerged as a technology that could carry out human-ordered tasks. But later, as technology took center stage, smart drones and autonomous mobile robots are becoming human aids. They minimize tough and labor-intensive tasks and helps people take overworks that involves intellect.

Let’s imagine being on a time machine. Currently, we are in 2021 and our brief pause would be in 2030. During the short interval, we will take you through how the future of drones & robots unfold in the unseen times.

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Smart Drones for the Future

Drones are not a new thing to the technology sphere. Ever since artificial intelligence took humankind by storm, drones coexisted with disruptive innovations. The footprint of drones is traced back to the early 2000s. The blueprint of drones is suspected to be used in World War I when both the US and France worked on developing automatic, unmanned airplanes. But things have drastically changed since. From being a maneuvering machine to luring drone fanatics, drone technology has reached a big milestone in 2021.

Still, the historical habit of using drones in the military has not died. Even today, the defense wing of countries is using military drones to combat missions, research, and development, supervision, etc. Moving out of the government concepts, the commercial world has so much to do with drones. Companies are starting to use drones as delivery objects. Besides, many are working on autonomous drones that could function on their own when assigned to carry out a delivery task.

Since drone technology is constantly evolving, the future drone tech is currently undergoing groundbreaking progressive improvement. The future is anticipated to welcome drones that are commercially suitable, fully compliant to safety and regulation standards, have payload interchangeability, etc. The drones of 2030 are already in the making. Smart drones are powered with built-in safeguards and compliance tech, smart accurate sensors, and self-monitoring. They are expected to unravel new opportunities in transport, military, logistics, and commercial sectors.

Autonomous Mobile Robots at the Forefront

Although robots and humans have a long history, we are still at the first phase of coexisting with each other. People are slowly paving way for robotics to come into their lives. The collaborative environment enabled by the automation continuum includes diverse players and reams of data, which together can present several significant challenges.

The future of robotics has a trailblazing concept in the bag. Autonomous Mobile Robots (AMRs) are emerging as a disruptive concept that could take the world by storm in the coming days. Autonomous mobile robots are already invading the practical world and in diverse sectors like security, cleaning, retail, and hospitality. On the other hand, autonomous mobile robots along with drones are transforming the way the agriculture sector functions. They help implant intelligent solutions that could possibly help formers enhance their harvest. Autonomous mobile robots help pick fresh fruits and help in dairy farming. This is anticipated to intensify in the upcoming years. Autonomous mobile robots are expected to forever change the fate of agriculture and logistics.

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Top Funding in Miniature Robotics that One should Know about in 2021

Robotics

Soft Robotics

Robotics startup company Soft Robotics has closed its Series B round of funding, raising $23 million led by Calibrate Ventures and Material Impact, and including participation from existing investors including Honeywell, Yamaha, Hyperplane, and more. This round also brings in FANUC, the world’s largest maker of industrial robots and a recently announced strategic partner for Soft Robotics. Soft Robotics is focused on developing miniature robotic grippers that, as you might’ve guessed from the name, make use of soft material endpoints that can more easily grip a range of different objects without the kind of extremely specific and tolerance-allergic complex programming that’s required for most traditional industrial robotic claws.

Felix Ltd.

General-purpose robotics company Flexiv Ltd. has closed more than $100 million in a Series B funding round with major investors including Meituan, Meta Capital, New Hope Group, Longwood, YF Capital, Gaorong Capital, GSR Ventures, and Plug and Play, marking the largest single-round fundraising ever in the field of general-purpose robotics, according to the company.

Flexiv Ltd. is a robotics company that develops robotics and AI technologies and applies them across all industries. Four years after its founding, Flexiv has completed its core hardware and software products development with more than 100 technical patents submitted and has validated its primary business model, now becomes ready for further business expansion. In 2019, Flexiv completed its series A+ with accumulated funding of $22 million. In April 2019, Flexiv officially launched its first product, the world’s first adaptive robot Rizon. In 2020, Rizon received global recognition for its design and product value by winning both the iF Design Award and the German Innovation Award. The company has manufactured over 100 adaptive robots and developed several reliable and unique industrial applications after dedicating a tremendous amount of time and resources to product verification and iterative optimization in the fields.

Virtual Incision

Virtual Incision, a medical technology company that’s developing miniaturized surgical robots, has raised $20 million in what it’s calling a “series B+” round of funding led by Bluestem Capital, with participation from PrairieGold Venture Partners and Genesis Innovation Group, among others. Founded in 2006, Lincoln, Nebraska-based Virtual Incision develops a small robotic arm called Mira that enables surgeons to carry out minimally invasive abdominal surgery in any hospital or medical environment. It’s designed to negate the need for dedicated spaces and infrastructure that are required by traditional robotic systems. Portability is the name of the game with Mira, and at just two pounds it can be easily shifted between locations. Mira is geared toward improving access to surgery by making the technology more accessible.

Memic Innovative Surgery

Memic Innovative Surgery (Memic), a medical device company focussing on robot-assisted surgery, has closed a $96 million Series D financing round. The funding round was led by Peregrine Ventures and Ceros with participation from Our crowd and Accelmed. Funding will support the commercialization of the Hominis robotic-assisted surgical platform in the U.S. and potentially in other countries as the company also plans to expand marketing and sales efforts outside the U.S. The financing will also support continued research and development efforts including expanding the company’s portfolio of products and manufacturing scaleup, as well as provide world-class customer support and training.

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