AI the 5th Industrial Revolution

Many experts have suggested that we are currently experiencing a new era of technological innovation that could be referred to as the 5th industrial revolution. This era is characterized by the convergence of multiple emerging technologies, including artificial intelligence, robotics, Chatbots, the Internet of Things (IoT), 3D printing, Cyborgs and advanced materials commented author J Dean.

Proponents of the 5th industrial revolution believe these technologies will transform the way we live and work, leading to more efficient, sustainable, and personalized products and services. Some of the potential impacts of this revolution could include:

• Increased automation and efficiency in manufacturing and logistics

• A shift towards personalized and on-demand production

• More advanced and connected healthcare systems

• Enhanced environmental sustainability through the use of advanced materials and energy systems

• New forms of human-machine collaboration and interaction

Today, we hear so much about AI Chatbots, but robot automation is a growing corporate industrial shift. For example, currently Amazon has added 550,000 robots versus 1.6 million human workers employed. And Amazon is adding about a thousand robots a day. If you compare the number of robots Amazon has to the number of human employees, it’s nearly 35% robots now. And we believe that by the year 2030 Amazon may employ more robots than people. We're at a historic point now where the AI technology and intelligent machine capabilities are so great, innovations held within a handful of companies, that U.S. corporate leadership must be vigilant regarding the speed and targeted way in which the technology is released into the commercial markets, otherwise it could cause tremendous economic disruption, cultural and social chaos.

A leading cloud management company, Amazon offers a robust suite of AWS apps that any organization can benefit from using automation. A business may want to improve their operational efficiency, reduce errors associated with manual intervention, and reduce time to resolution of common issues.

For example, managers, administrators, and users who want to automate deployment and configuration tasks, reliably resolve common issues, improve troubleshooting efficiency, and reduce repetitive operations can all benefit from automation. In addition, organizations that want to define best practices for resource management and operations tasks can use automation to share these best practices across accounts and regions.

Studies find the potential of nearly 70 million U.S. jobs in 2030 may be performed by AI. While thousands of new jobs will be created from the use of AI technology, a period of uncertainty is inevitable, as millions of people are being displaced by automation, AI Chatbots, and robots.

However, robots and Chatbots are not the only disruptive changes happening, as increasingly humans are being enhanced by intelligent machine interface apps and intertwined nano-technologies. Leaders in the R&D of enhanced human capabilities such as brain to machine interface may be defined as bionic, humanoid or "Cyborgs" include;

NeuraLink is a neurotechnology company founded in 2016 by Elon Musk, with the goal of developing advanced brain-machine interfaces (BMIs). BMIs are devices that enable communication between the human brain and computers or other machines. NeuraLink's mission is to create BMIs that can treat a range of neurological disorders, such as paralysis, and ultimately, enhance human cognitive abilities and create a symbiotic relationship between humans and artificial intelligence.

The company's initial focus is on developing a high-bandwidth, implantable device that can be used to treat various neurological disorders. The device, called the NeuraLink device, is designed to be implanted in the brain and to communicate wirelessly with an external device.

The company has been conducting animal testing and has received approval from the U.S. Food and Drug Administration (FDA) to conduct clinical trials in humans.

NeuraLink has also developed a robot capable of performing brain surgery with greater precision and speed than a human surgeon, which could potentially reduce the risk of complications during implantation.

Overall, NeuraLink's vision is to create a future where humans can seamlessly interact with machines and where people with neurological disorders can regain their independence and improve their quality of life. However, the technology is still in the early stages of development, and there are still many ethical, legal, and social implications that need to be addressed before it becomes widely available.

Synchron is a neurotechnology company that has developed a minimally invasive brain-computer interface (BCI) called the Stentrode. The Stentrode is a small device that is implanted through a minimally invasive surgical procedure into a blood vessel in the brain.

Once implanted, the device can read and transmit signals from the brain to a computer, allowing users to control devices or software applications using their thoughts.

The Stentrode is a unique technology because it is implanted into the brain via the blood vessels rather than through more invasive surgical methods. This reduces the risks and complications associated with traditional brain implants and makes the technology more accessible to a wider range of patients.

Synchron has conducted successful clinical trials of the Stentrode in humans with spinal cord injuries, allowing them to control a range of devices using their thoughts, including computers, tablets, and robotic limbs. The company is also exploring the potential of the Stentrode to help people with a range of neurological conditions, including ALS, stroke, and epilepsy.

Overall, Synchron's technology has the potential to significantly improve the quality of life for people with neurological conditions by restoring their ability to interact with the world using their thoughts. However, the technology is still in the early stages of development, and more research and testing are needed before it can be widely available to patients.

ClearPoint Neuro is a medical technology company that develops and commercializes solutions for the treatment of neurological disorders. The company's flagship product is the ClearPoint Neuro Navigation System, which is used to guide and track the placement of neurological devices, such as deep brain stimulation (DBS) leads, in the brain.

The ClearPoint system utilizes real-time MRI imaging to provide neurosurgeons with precise and accurate guidance during procedures, allowing for more effective and targeted treatment. In addition to its navigation system, ClearPoint Neuro also offers a range of accessories and consumables used in neurosurgery, including biopsy needles and catheters.

ClearPoint Neuro is based in Irvine, California, and has partnerships with leading medical institutions and industry players in the field of neurosurgery. The company is committed to advancing the standard of care for patients with neurological disorders and to improving outcomes through innovative technology solutions.

Blackrock Neurotech is a company that specializes in developing and manufacturing advanced neural interface technologies. The company was founded in 2008 and is based in Salt Lake City, Utah, USA.

Blackrock Neurotech's products include devices that enable researchers and clinicians to record and stimulate neural activity in the brain and nervous system. These technologies can be used to better understand brain function and treat neurological disorders.

One of the company's flagship products is the Utah Array, a high-density electrode array that can be implanted in the brain to record neural activity with high spatial resolution. The company also offers software and data analysis tools to help researchers and clinicians make sense of the data gathered from these devices.

Blackrock Neurotech has collaborated with a number of academic and industry partners to advance the field of neural interface technology. The company has received funding from the National Institutes of Health and has been recognized with several awards for its contributions to the field.

BrainGate is a research collaboration between several academic institutions, including Brown University, the Massachusetts Institute of Technology (MIT), and Stanford University, that aims to develop brain-computer interfaces (BCIs) to help people with paralysis or other motor disabilities to control devices using their thoughts.

The technology behind BrainGate uses implanted devices with electrodes that record neural activity in the brain. The signals are then processed by a computer and translated into commands that can control external devices, such as a robotic arm or a computer cursor. The system is designed to work in real time, enabling users to control the devices intuitively and with high precision.

The BrainGate technology has been tested in clinical trials with individuals with paralysis or other motor disabilities, and has shown promising results in enabling them to control devices using their thoughts. The research has also led to insights into the workings of the brain and the mechanisms underlying movement control.

BrainGate is an ongoing research project, with ongoing efforts to improve the technology and develop new applications for it. The ultimate goal is to enable people with paralysis or other motor disabilities to regain independence and improve their quality of life.

Neurable is a neurotechnology company that develops brain-computer interfaces (BCIs) and other technologies that enable people to control devices and applications using their thoughts. The company was founded in 2015 and is based in Boston, Massachusetts.

Neurable's flagship product is a BCI headset that uses electroencephalography (EEG) to record neural activity in the brain and translate it into commands that can control external devices. The headset is designed to be comfortable and easy to use, with a wireless connection to the device being controlled.

The company's technology has a variety of potential applications, including gaming, virtual and augmented reality, and assistive technology for people with disabilities.

For example, Neurable's technology can enable people to play games or navigate virtual environments using their thoughts, providing a new level of immersion and interactivity. It can also be used to control assistive devices such as wheelchairs or prosthetics.

Neurable has received funding from a variety of sources, including the National Science Foundation and private investors. The company has also formed partnerships with other companies and organizations to explore new applications for its technology. The ultimate goal of Neurable is to make BCIs more accessible and to unlock the full potential of the human brain.

Further, several companies are now pushing the envelope when it comes to developing robot automation solutions. Note some of the leading companies we've researched including;

ABB is a leading manufacturer of robotics products that serve various industries, including healthcare, logistics, metal fabrication, construction, and fabrication. Some of their popular products include autonomous mobile robots (AMRs) and RobotStudio, which is an offline programming and simulation tool for robotic applications.

The AMRs from ABB are designed to provide flexible and safe material handling solutions in various environments, including factories, warehouses, hospitals, and laboratories. They can navigate autonomously through dynamic environments, avoiding obstacles and adapting to changes in their surroundings. These robots can perform a variety of tasks, such as transporting materials, picking and placing items, and assisting with inventory management.

RobotStudio, on the other hand, is an advanced software tool that allows users to simulate and optimize robotic applications offline, without the need for physical robots or equipment. This tool is designed to help users save time and reduce costs by allowing them to test and refine robotic applications before deploying them in real-world environments. RobotStudio supports a range of programming languages, including ABB's proprietary RAPID language, and can be used to program various types of robots, including industrial robots and AMRs.

Overall, ABB's portfolio of robotics products, including their AMRs and RobotStudio, provide innovative and flexible solutions for a range of industries, helping to improve efficiency, productivity, and safety in various applications.

NVIDIA’s Isaac robotics platform supports the development and deployment of robots for various industries. It can be used for creating virtual environments for testing robots and managing fleets of robots. NVIDIA’s artificial intelligence technologies, like the Jetson Orin AI computer, are capable of powering autonomous machines. NVIDIA's Isaac robotics platform is a comprehensive solution that supports the development and deployment of robots for a variety of industries, including manufacturing, logistics, healthcare, and more. It offers various tools and technologies for creating, training, and deploying intelligent robots and other autonomous machines.

One of the key features of the Isaac platform is the ability to create virtual environments for testing robots. This allows developers to simulate real-world scenarios and test their robots' capabilities and performance in a safe and controlled environment. The platform also includes a fleet management system that enables users to monitor and manage multiple robots from a centralized location.

NVIDIA's artificial intelligence technologies, such as the Jetson Orin AI computer, provide the computing power required to run intelligent robots and other autonomous machines. Jetson Orin is a high-performance, energy-efficient system-on-a-chip that combines multiple processing elements, including GPU, CPU, and AI accelerators, to deliver the necessary computational power for real-time sensing, perception, and decision-making.

In addition to the hardware and software tools, NVIDIA also provides a community of developers and experts who share knowledge and resources to help accelerate the development and adoption of intelligent robots and other autonomous machines.

Overall, NVIDIA's Isaac platform and Jetson Orin AI computer offer a powerful and flexible solution for creating, training, and deploying intelligent robots and other autonomous machines in a variety of industries.

SVT Robotics SOFTBOT Platform is designed to simplify the integration of robotics and automation into existing workflows. The platform allows businesses to connect multiple types of robots and automation devices to their existing systems, such as warehouse management systems, enterprise resource planning software, and e-commerce platforms. This can help reduce the time and cost of implementing new automation technologies, as well as streamline operations by enabling more efficient use of robots and other automation devices. Additionally, the SOFTBOT Platform provides real-time monitoring and analytics, allowing businesses to optimize their operations and identify opportunities for improvement.

Comau is a well-known robotics company that produces a range of industrial robots, including collaborative robots (cobots) and exoskeletons. The Aura cobot is designed for human-robot collaboration and can be mounted upside down to save space. It features a user-friendly interface for programming and is equipped with sensors and advanced safety features to avoid collisions and ensure the safety of human operators. The MATE-EXT exoskeleton is designed to assist workers with strenuous, repetitive tasks by providing shoulder and arm support, which can help reduce the risk of injury and improve overall quality of life. Overall, Comau's range of industrial robots and automation technologies can help businesses improve efficiency, productivity, and safety in various industries.

Boston Dynamics is known for developing robots with advanced mobility and dexterity capabilities. In addition to the Spot robot, which is designed for industrial inspections and can traverse difficult terrain, the company has also developed other robots for various applications.

One of their newer robots is Stretch, a mobile robot that can move boxes up to 50 pounds in weight, making it ideal for warehouse and logistics applications. Another robot, Atlas, is a humanoid robot that can walk, run, jump, and perform acrobatic maneuvers. Boston Dynamics also offers the Handle robot, a mobile robot with both legs and wheels that can carry and manipulate objects in tight spaces.

Outrider's autonomous yard operations vehicles can automate the movement of semi-trucks and trailers around distribution centers, warehouses and container yards, making the process faster, safer and more efficient. The vehicles are equipped with advanced sensors, machine vision and artificial intelligence to operate autonomously, while also being supervised by remote human operators. Outrider's site infrastructure and management systems provide a full picture of the yard operation, from the location and status of vehicles and trailers to the position of loading docks, which allows for improved logistics planning and efficiency. Overall, Outrider's technology can help reduce operational costs, increase safety and reduce emissions in logistics and transportation.

Apptronik's "human-centered robotic systems" are designed to work alongside and augment human capabilities. The company has a range of robots that are specialized in different functions, including an upper-body humanoid robot that is designed to work with its hands and a social robot that has facial features to enhance social connections. These robots are aimed at a variety of industries, including healthcare, manufacturing, and entertainment.

Tempo Automation provides an efficient and effective solution for electronics and robotics manufacturers looking to quickly develop prototypes of their designs.

With the ability to produce working models in as little as three days, Tempo Automation can significantly reduce the time it takes for manufacturers to bring their products to market. The company's software also offers full visibility into the prototyping process, which can help manufacturers stay on top of production and cost expectations.

Tempo Automation organizations in the aerospace, medical, and manufacturing industries are using Tempo Automation's services. These industries often require high-quality and reliable prototypes, and the speed and accuracy of Tempo Automation's software could be a valuable asset to them.

RightHand Robotics technology is designed to address some of the challenges associated with e-commerce order fulfillment, such as reducing the amount of time it takes to process orders.

By performing tasks like selecting and sorting handheld items, RightHand Robotics's robots are able to automate parts of the order fulfillment process and help speed up the time it takes to get orders out the door. It's interesting to hear that the company's robots have been nicknamed "pickers" due to their ability to pick and sort items.

With e-commerce continuing to grow in popularity, it's likely that companies like RightHand Robotics will play an increasingly important role in the supply chain. By automating certain aspects of order fulfillment, these companies can help improve efficiency, reduce costs, and enable businesses to meet the demands of an increasingly competitive marketplace.

HoneyBee Robotics technology has been used in multiple NASA space missions, including visits to Mars, since 1983. This suggests that HoneyBee Robotics has a long history of expertise in developing advanced robotic systems for challenging environments.

It's also interesting to hear that the company is involved in the defense, mining, and oil and gas industries, where it develops intelligent excavation systems, autonomous drills, and sampling systems, among other innovations. These industries can benefit greatly from the use of advanced robotic systems, which can help improve efficiency, reduce costs, and enhance safety.

Overall, HoneyBee Robotics appears to be a leading player in the development of advanced robotic technologies for a wide range of applications, from space exploration to terrestrial industries. As the demand for robotics and automation continues to grow, it's likely that companies like HoneyBee Robotics will play an increasingly important role in helping to develop the technologies of the future.

Piaggio Fast Forward is known for its Vespa scooter, is also involved in the development of robotics technology.

The company's flagship robot, gita, is designed to provide a lightweight mobility solution for people and goods. By following people around and carrying up to 40 pounds, gita can help make it easier for people to transport heavy or bulky items, such as books or groceries.

The use of robotics technology in this context has the potential to improve the way people move and carry goods, especially in urban environments where transportation and mobility can be challenging. By providing a mobile carrier that can follow people around, gita offers a new level of convenience and functionality that could be beneficial to a wide range of users.

Overall, Piaggio Fast Forward appears to be leveraging its expertise in transportation and mobility to develop innovative robotics solutions. It will be interesting to see how the company's technology evolves in the coming years and how it is adopted by different industries and users.

MP (Autonomous Manipulation and Perception) and their robotic system, Cortex is designed to address some of the challenges associated with sorting and separating recyclable materials in a variety of environments, including mixed waste, construction, and demolition sites.

By using AI, Cortex is able to quickly and efficiently identify and pluck recyclable materials off a conveyor belt. This can help improve the speed and accuracy of the sorting process, which is critical for maximizing the amount of material that can be recycled.

It's interesting to hear that Cortex has potential applications in a range of different environments. This suggests that the technology could be used to help improve the efficiency of a wide range of industrial processes.

Overall, MP's use of AI in their robotic system appears to be a promising development in the field of recycling and waste management. As recycling becomes an increasingly important issue, technologies like Cortex could play an important role in helping to address the challenges associated with sorting and separating recyclable materials.

Ouster is focused on developing 3D lidar sensor technology, which is a critical component for enabling machines to perceive their surroundings and operate autonomously.

Ouster's work with leading engineers in fields like robotics, autonomous vehicles, and security systems suggests that the company's technology has broad applications across a range of industries. By partnering with companies like Honeywell, Kudan, and Mechaspin, Ouster is able to leverage the expertise of these industry leaders to help further develop and refine their technology.

Overall, Ouster's focus on 3D lidar sensor technology is an important development in the autonomous revolution, as it enables machines to operate more safely and efficiently in a wide range of environments.

Diligent's Moxi robot provides advanced and useful applications of AI technology. For example, nurses spend 30% of their time on routine tasks which may be performed by robots like Moxi. By being able to work alongside humans in everyday environments, Moxi has the potential to increase efficiency and reduce the workload for medical staff by handling logistical tasks such as setting up patient rooms, medications and restocking supply rooms.

The ability of Moxi to navigate hallways and tight spaces is likely due to its advanced sensing capabilities, such as the use of sensors, cameras, and other technologies to perceive and map its environment. Its social intelligence, which is conveyed through its head movements, could be achieved through the use of natural language processing, computer vision, and other AI techniques to enable the robot to interact with humans in a more human-like way.

Overall, Diligent's Moxi robot is an exciting example of how AI can be applied to real-world problems and help to improve people's lives.

General Dynamics Mission Systems’ Bluefin is a family of unmanned underwater vehicles (UUVs) designed for a variety of missions, including mine countermeasures, search and survey operations, and environmental monitoring. These UUVs are highly modular and can be configured with a variety of payloads to suit specific mission requirements.

The Bluefin UUVs are designed to operate autonomously or under remote control and can be launched from shore or from a variety of surface vessels. They are capable of conducting high-resolution imaging, acoustic surveys, and other data-gathering operations, and can operate in a range of water depths and environmental conditions.

The Bluefin family includes several different UUV models, including the Bluefin-9, Bluefin-12, Bluefin-16, and Bluefin-21. Each model is designed to be highly flexible and configurable, with a range of options for sensors, communication systems, and other mission-specific equipment.

Overall, the Bluefin UUVs are a versatile and capable platform for a range of underwater missions, and have been used successfully by military and commercial customers around the world.

Intuitive's da Vinci and Ion platforms are both revolutionary in the field of minimally invasive surgery. The da Vinci platform is a robotic surgical system that allows surgeons to perform complex procedures with greater precision and control, using smaller incisions than traditional open surgery. It consists of a surgeon's console, patient-side cart with four interactive robotic arms, and a high-definition 3D vision system. The surgeon uses the console to control the robotic arms, which are equipped with a range of surgical instruments, including advanced energy systems, staplers, and other instruments. The system also offers enhanced vision technologies, including a 3D camera that provides surgeons with a magnified view of the surgical field.

The newer Ion platform is designed specifically for minimally invasive peripheral lung biopsies. This platform uses a small, flexible catheter that is inserted into the lungs through a bronchoscope. The catheter is equipped with an electromagnetic sensor that allows the physician to navigate to the targeted lung lesion. Once the lesion is reached, a small biopsy tool is extended through the catheter to obtain a tissue sample. The Ion platform offers physicians real-time imaging and navigation capabilities, as well as the ability to obtain larger tissue samples than with traditional biopsy methods.

Overall, Intuitive's robotic platforms have enabled surgeons and physicians to perform minimally invasive procedures with greater precision and control, resulting in less pain, shorter hospital stays, and faster recovery times for patients.

Starship Technologies self-driving robots are designed to make deliveries over short distances, providing a convenient and contactless delivery option for customers. These robots are equipped with advanced navigation and obstacle avoidance technology, allowing them to navigate around people and other obstacles as they make their way to their destination.

When a customer places an order, they can track the robot's journey through a mobile app, which provides real-time updates on the robot's location and estimated time of arrival. The app also allows the customer to unlock the cargo bay and retrieve their delivery once the robot has arrived at its destination.

One of the key benefits of using self-driving robots for deliveries is their ability to operate 24/7 without the need for human intervention. They are also more environmentally friendly than traditional delivery vehicles, as they emit no pollution and consume less energy.

Starship Technologies' robots are small and lightweight, weighing less than 100 pounds, and move at a walking pace, making them ideal for delivering small packages over short distances. The cargo bay is locked during transit, ensuring that the items being delivered remain secure until the customer unlocks the compartment using the mobile app.

Overall, Starship Technologies' self-driving robots represent an innovative and exciting development in the world of delivery, providing a safe, convenient, and efficient way for customers to receive their packages.

RIOS Intelligent Machines is a company that uses advanced technologies like AI and robotics to automate entire factories. By implementing cutting-edge technologies, RIOS helps companies streamline their operations and optimize their supply chains, while also increasing production efficiency and reducing costs.

One of the key benefits of RIOS's technology is its ability to help companies predict and respond to potential supply chain problems before they arise. By analyzing vast amounts of data from various sources, RIOS's AI systems can identify patterns and trends, helping companies better understand their operations and make more informed decisions.

Another major benefit of RIOS's technology is its speed and efficiency. The machines that RIOS uses can work up to two times faster than traditional human labor, allowing companies to produce goods more quickly and with greater accuracy. This can help companies increase their output, reduce lead times, and respond more quickly to changing market demands.

RIOS's technology is also highly flexible and adaptable. The company can customize its machines to meet the specific needs of each client, tailoring the technology to fit the unique requirements of each factory. This ensures that the technology is optimized to deliver the best possible results for each individual company.

Overall, RIOS Intelligent Machines is an innovative and exciting company that is helping to revolutionize the manufacturing industry. By combining AI and robotics, RIOS is helping companies automate their operations and increase production efficiency, while also reducing costs and improving supply chain management.

Covariant is a company that aims to develop a universal artificial intelligence (AI) system that can enable robots to "see, reason, and act on the world around them" in a more adaptable and flexible manner. The company's technology uses cutting-edge deep learning and reinforcement learning techniques to enable robots to learn from their experiences and adapt to new tasks quickly and effectively.

The goal of Covariant's technology is to enable robots to perform a wide range of tasks in various industries, including retail, healthcare, and manufacturing. For example, in the retail industry, Covariant's technology can help robots navigate crowded stores and warehouses, identify and pick items from shelves, and deliver products to customers. In the healthcare industry, robots with Covariant's technology can assist with tasks such as patient care and medication delivery. In manufacturing, robots can use the technology to identify and sort components, assemble products, and perform quality control tasks.

One of the key advantages of Covariant's technology is its flexibility and adaptability. Unlike traditional robotic systems that are programmed to perform specific tasks, Covariant's AI system can learn from its experiences and adapt to new tasks quickly and effectively. This means that robots equipped with the technology can be deployed in a wide range of industries and perform a variety of tasks, without the need for extensive reprogramming.

Overall, Covariant's technology has the potential to revolutionize the way robots are used in various industries, providing a more flexible and adaptable approach to automation. By enabling robots to see, reason, and act on the world around them, the technology can improve efficiency, reduce costs, and enhance the overall performance of robotic systems.

Shapeways is a company that offers on-demand 3D printing services, allowing businesses to quickly and easily create high-quality parts and products with reduced assembly time. The company offers a wide range of 3D printing services, from rapid prototyping to additive manufacturing and custom design.

With more than 21 million parts printed to date, Shapeways has a proven track record of success in 3D printing. The company's services are applicable to a wide range of industries, including robotics, aerospace, healthcare, and architecture. In the robotics industry, for example, Shapeways' 3D printing services can be used to create custom parts and prototypes for robotic systems, enabling companies to quickly iterate and test new designs. In the healthcare industry, the technology can be used to create custom medical devices and implants, tailored to the specific needs of individual patients.

One of the key benefits of Shapeways' 3D printing services is its ability to scale production quickly and efficiently. The technology allows companies to produce high-quality parts and products on demand, without the need for extensive tooling or manufacturing equipment. This can help companies reduce costs and increase production efficiency, while also enabling them to bring products to market more quickly.

Shapeways' technology also offers a high degree of customization and design flexibility. The company's design tools and services allow customers to create and customize their products in a wide range of materials and finishes, ensuring that each product is tailored to the specific needs and requirements of the customer.

Overall, Shapeways' 3D printing services represent an innovative and exciting development in the world of manufacturing. By offering on-demand 3D printing and customization services, the company is helping to revolutionize the way products are designed, developed, and produced, providing businesses with a more efficient, cost-effective, and flexible approach to manufacturing.

Stratasys is a company that produces 3D printing technologies for a wide range of applications. They offer a variety of 3D printing solutions, including FDM (Fused Deposition Modeling), PolyJet, and stereolithography (SLA) printers.

Fused Deposition Modeling (FDM) is a technology that uses a heated nozzle to extrude thermoplastic materials, such as ABS, PLA, or Nylon, to build up a 3D object layer by layer. This method is widely used for prototyping, tooling, and producing end-use parts.

PolyJet 3D printing is a technology that uses multiple print heads to deposit tiny droplets of photopolymer material onto a build tray. This creates highly detailed models with smooth surfaces and a range of colors and materials.

Stereolithography (SLA) is a type of 3D printing that uses a UV laser to solidify a liquid resin, layer by layer. This technology is often used for creating highly accurate and detailed models, and is popular in industries such as dentistry, jewelry, and medical devices.

Stratasys also offers a range of materials, including engineering-grade thermoplastics, photopolymers, and composites. These materials are designed to meet the requirements of a wide range of applications, including aerospace, automotive, healthcare, and consumer products.

Overall, Stratasys is a leading provider of 3D printing technologies and solutions, with a wide range of applications across many industries.

Vicarious is a company that specializes in developing advanced automation software for robots, which unlocks a greater range of motion and incredible capabilities in robotic devices. The company's software solutions enable robots to complete advanced assembly line tasks such as palletizing, assembling kits, machine tending, bin packing, sorting, and advanced packaging.

One of the key benefits of Vicarious' technology is its ability to reduce labor hours by up to 50 percent on average. By automating complex tasks that were previously only possible with human labor, the technology can help companies to reduce costs and increase efficiency in their manufacturing processes.

Vicarious' software solutions are designed to be flexible and adaptable, meaning that they can be customized to meet the specific needs and requirements of each customer. The technology uses a combination of advanced computer vision, machine learning, and other AI techniques to enable robots to "see" and understand their environment, make decisions, and perform tasks with a high degree of accuracy and precision.

The company's software solutions are applicable to a wide range of industries, including automotive, electronics, consumer goods, and more. In the automotive industry, for example, Vicarious' technology can be used to automate tasks such as painting, welding, and assembly. In the electronics industry, the technology can be used to assemble complex products with high precision and accuracy.

Overall, Vicarious' automation software represents a significant advancement in the field of robotics and automation. By unlocking a greater range of motion and capabilities in robotic devices, the technology can help companies to increase efficiency, reduce costs, and improve the overall performance of their manufacturing processes.

Skydio is a company that specializes in designing and manufacturing intelligent drone devices using AI technology and a decade of research and development experience in drone technology and computer vision. The company's flagship products include the Skydio 2+ and the Skydio X2.

The Skydio 2+ is an unmanned aerial device that is optimized for video. It uses advanced computer vision and AI technology to provide autonomous flight capabilities, allowing users to capture high-quality video footage without the need for a pilot. The device is designed to be lightweight, portable, and easy to use, making it ideal for a wide range of applications, including aerial photography, videography, and mapping.

The Skydio X2 is a more rugged, portable airframe designed for use in a variety of demanding environments. It features advanced obstacle avoidance technology and can be used for a wide range of applications, including public safety, inspection, and surveying. The device is designed to be highly portable, making it easy to transport and deploy in the field.

One of the key benefits of Skydio's technology is its use of AI and computer vision to provide autonomous flight capabilities. By using advanced algorithms to "see" and understand the environment around the drone, the technology enables the drone to fly autonomously, avoiding obstacles and maintaining a safe distance from other objects. This makes it easier for users to capture high-quality footage and data, without the need for extensive piloting skills or training.

Overall, Skydio's intelligent drone devices represent a significant advancement in the field of drone technology, combining the latest advancements in AI and computer vision to provide autonomous flight capabilities and high-quality data and video capture. With a wide range of applications in industries such as photography, videography, public safety, inspection, and surveying, Skydio's technology has the potential to transform the way that people work and interact with drones.

Nuro is a company that focuses on developing robotics technology to improve people's daily lives, by making more efficient use of resources, time, and attention. The company's flagship product is a line of fully autonomous vehicles designed to transport goods quickly, safely, and affordably.

The Nuro vehicles are designed to be highly flexible, with a modular interior that can be configured to carry a wide range of goods and packages. This makes the vehicles suitable for a variety of different tasks, from delivering groceries and other retail items, to providing local logistics services for businesses.

One of the key benefits of Nuro's technology is its use of advanced robotics and AI technology to provide fully autonomous operation. This means that the vehicles can operate without a human driver, navigating their way through traffic and handling deliveries without any need for human intervention. This has the potential to significantly reduce costs and improve the efficiency of delivery operations, while also reducing the risks and challenges associated with traditional human-driven delivery vehicles.

Overall, Nuro's technology represents a significant advancement in the field of autonomous vehicles and robotics. By leveraging advanced AI and robotics technology, the company is making it possible to deliver goods and services more efficiently and safely, while also reducing the environmental impact of traditional delivery vehicles. With the potential to transform the way that people access and receive goods and services, Nuro is helping to drive the adoption of robotics technology to the forefront of everyday life.

Sphero is a company that produces app-enabled robotic balls and other educational robots designed to make learning more engaging and interactive. The original Sphero robot ball is a small, durable ball that can be controlled and programmed using a mobile app. The company has since expanded its product line to include the Sphero Mini, a smaller version of the original ball, and the Sphero indi, which is designed specifically for young learners.

Sphero also offers an educational app called Sphero Edu, which provides a platform for students and educators to program and control their robots, as well as access to various educational resources and activities. The app is designed to be accessible to learners of all ages and skill levels, from beginners to advanced programmers.

Overall, Sphero's products and educational resources are aimed at making STEM (science, technology, engineering, and math) education more engaging and interactive for learners of all ages. By combining play and programming, Sphero hopes to inspire a love of learning and foster creativity and problem-solving skills in the next generation of learners.

PickNik is a company that provides robotic software development and consulting services to businesses looking to incorporate robotics into their operations. The company offers a range of services, including feasibility studies, strategic development, and custom software development, to help clients overcome the technical challenges of implementing robotics solutions.

PickNik has a team of experts with a broad range of skills and experience in robotics, including robot arm planning, real-time motion control, simulation and virtual reality, collision avoidance, and cloud integration. This expertise allows the company to offer comprehensive solutions to its clients and help them meet their robotics goals.

Over the years, PickNik has worked with a variety of clients, including some of the biggest names in the tech industry, such as Google, Amazon, and Hyundai. By collaborating with these businesses and providing them with cutting-edge robotics solutions, PickNik is helping to advance the field of robotics and drive innovation in a range of industries.

Sarcos Robotics is a company that builds a variety of different robots for different functions. The company's robots are designed to help humans perform difficult, dangerous, or repetitive tasks, while increasing efficiency and safety.

The Guardian S robot is one of Sarcos' robots and is designed for remote inspection of hard-to-reach areas. It is a highly maneuverable robot that can travel through challenging terrain and navigate complex environments, such as narrow pipes and tunnels. The Guardian S robot can be operated from a distance, allowing operators to inspect areas that are dangerous or difficult for humans to access.

The Guardian GT is another robot made by Sarcos, and is designed for heavy lifting and manipulation. It can be controlled by a human operator, allowing the operator to control the robot's movements and perform tasks that would be too heavy or dangerous for a human to do on their own. The Guardian GT has a range of applications, including in logistics, construction, and emergency response.

The Guardian XO is a powered exoskeleton suit that is designed to improve human strength and endurance without restricting the operator's freedom of movement. It allows the operator to lift heavy objects and perform physically demanding tasks with ease, while also reducing the risk of injury. The Guardian XO has a range of applications, including in manufacturing, construction, and the military.

Overall, Sarcos Robotics is dedicated to building robots that can help improve efficiency, safety, and productivity in a variety of industries. Their range of products, including the Guardian S, Guardian GT, and Guardian XO, demonstrate the company's commitment to creating cutting-edge robotics technology that can help humans work more effectively and safely.

Barrett Technology is a company that specializes in creating advanced robotic manipulators, specifically articulated arms and hands. The company's products are designed to mimic the dexterity and flexibility of human hands and arms, with a focus on precision and accuracy.

One of the company's products, the WAM Arm, is an articulated arm that is designed to mimic human-like grace and dexterity. It is a highly precise and flexible robot arm that can be used for a variety of applications, from manufacturing to medical research.

Another of Barrett's products is the BH8-series BarrettHand, which is a robotic hand that is capable of grasping an array of different objects. The hand is designed to be highly dexterous and flexible, allowing it to perform intricate movements with precision and accuracy.

The Burt robotic manipulator is another product from Barrett Technology, and is designed specifically for upper extremity rehabilitation training and robotics research. The device is used to help people recover from injuries or disabilities by providing them with exercises that can help them regain strength and mobility in their upper extremities.

Overall, Barrett Technology is focused on creating robotic manipulators that can help improve precision and accuracy in a variety of applications. By mimicking the dexterity and flexibility of human hands and arms, the company's products are designed to make it easier for people to perform complex tasks with greater efficiency and accuracy, while also advancing the field of robotics research.

Applied Aeronautics is a company that specializes in creating drones, and their main product is the Albatross, which is an electric fixed-wing drone.

The Albatross drone is designed for a variety of applications, ranging from agriculture and research to disaster management and defense. The drone is capable of flying for long distances, making it ideal for monitoring large areas and collecting data. It is also equipped with a range of sensors and cameras, allowing it to capture high-quality images and data that can be used for a variety of purposes.

One of the main advantages of the Albatross drone is its versatility. It can be customized with a range of different sensors and equipment to meet the specific needs of different industries and applications. For example, in agriculture, the drone can be used to monitor crops and analyze soil conditions, while in disaster management, it can be used to survey areas that are difficult or dangerous for humans to access.

Overall, Applied Aeronautics is dedicated to creating drones that are both efficient and effective, with a focus on versatility and customization. By creating drones that can be tailored to meet the specific needs of different industries and applications, the company is helping to drive innovation in a range of sectors, while also advancing the field of drone technology.

Modular Robotics is a company that creates snap-together robot blocks called Cubelets, which are designed to help children develop problem-solving skills through play-based learning.

The Cubelets blocks are designed to be easy to snap together, allowing children to design and redesign robot constructions with ease. The blocks can be used to model real-world behaviors, allowing children to experiment and learn about different concepts in a hands-on and engaging way.

One of the main advantages of the Cubelets blocks is their flexibility. The blocks can be combined in a variety of different ways to create robots with different capabilities, making them ideal for a range of different applications. For example, the blocks can be used to create robots that can move, light up, and make sounds, or they can be used to create robots that can sense their environment and respond to changes.

Overall, Modular Robotics is dedicated to creating products that make it easy and fun for children to learn about robotics and programming. By providing a hands-on and engaging learning experience, the company is helping to inspire the next generation of problem solvers and innovators. DroneSense is a company that creates software for public safety agencies to manage and utilize drones in their operations. The software is designed to help agencies such as fire departments, police departments, and search and rescue teams to deploy drones quickly and effectively in emergency situations.

The DroneSense software provides a range of tools for public safety agencies, including the ability to control drones remotely, view live video feeds from drones, and collect and analyze data from drone flights. This allows agencies to gather valuable situational awareness information before arriving on scene, which can help them make better decisions and improve their response times.

One of the main advantages of the DroneSense software is its ease of use. The software is designed to be intuitive and user-friendly, allowing first responders with little or no drone experience to quickly and easily deploy drones in emergency situations. The software also includes a range of safety features to help ensure that drones are deployed safely and effectively.

Overall, DroneSense is helping to transform the way that public safety agencies respond to emergencies by providing them with the tools they need to quickly and effectively deploy drones in the field. By leveraging the power of drones and data analytics, the company is helping to improve situational awareness, increase efficiency, and save lives.

Embodied is a company that creates companion robots designed to enhance individual wellness and quality of life. The company's flagship product is the Moxie robot, which is designed to support social and emotional growth in children.

The Moxie robot is an AI friend that engages with children through fun activities and play. The robot is designed to be engaging and interactive, and it can adapt to the unique interests and abilities of each child. The robot can help children learn about social and emotional concepts such as empathy, communication, and self-regulation.

One of the key features of the Moxie robot is its ability to personalize the learning experience for each child. The robot can learn about a child's interests and preferences, and it can use that information to tailor its interactions and activities to better meet the child's needs. This can help to make the learning experience more engaging and effective.

Overall, Embodied is dedicated to creating products that use cutting-edge technology to enhance human well-being and quality of life. By creating companion robots that exhibit human-like care and compassion, the company is helping to improve social and emotional development in children, and it is paving the way for a future in which robots play an increasingly important role in our lives.

Energid is a company that specializes in creating software for advanced real-time motion control in industrial and consumer robotics applications. The company's Actin SDK software is designed to help robots move in a more natural, human-like way, and it can be used to improve manipulation, reach, and coordination in robotic systems.

One of the key features of the Actin SDK software is its ability to enable cooperative robotics. The framework allows multiple robots to work together as one branching kinematic chain, which can help to improve coordination and increase the overall capabilities of the robotic system. This can be especially useful in industrial settings, where multiple robots may need to work together to complete complex tasks.

Another important feature of the Actin SDK software is its ability to enable real-time motion control. The software can help robots move more smoothly and accurately, which can be critical in applications such as manufacturing and assembly, where precise movements are required.

Overall, Energid is helping to advance the field of robotics by creating software that enables robots to move in more natural, human-like ways. By improving coordination, reach, and manipulation, the company's software is helping to unlock new possibilities for robotics in a wide range of industries.

Harvest Automation is a company that specializes in creating robots for use in agriculture. The company's HV-100 model is the world's first fully autonomous robot that can work alongside people in unmodified industrial environments.

The Harvest Automation robot is designed to help agricultural producers increase productivity, efficiency, and plant quality by taking over some of the manual labor involved in the growing process. The robot is capable of moving plants, pots, and trays around greenhouses and nurseries, allowing human workers to focus on other tasks that require more specialized skills.

By reducing the amount of manual labor required, Harvest Automation's robots can help to improve overall efficiency and productivity in the agriculture industry. This can be especially valuable for large-scale producers who need to manage large volumes of plants and crops.

Overall, Harvest Automation is helping to advance the field of robotics by creating robots that can work alongside humans in industrial environments. By taking on some of the manual labor involved in agriculture, the company's robots are helping to improve efficiency, productivity, and plant quality for agricultural producers across the United States.

iRobot is a company that was founded in 1990 and is best known for its smart vacuuming, floor-scrubbing, and mopping devices. The company's products include the Roomba, which is a robot vacuum that can automatically clean floors, and the Braava, which is a robot mop that can clean hard floors.

iRobot is also involved in providing STEM education for children through its educational program called "iRobot Education". The program offers a range of resources and tools designed to help teachers and students learn about robotics and coding. These resources include educational robots, programming software, and curriculum materials.

Overall, iRobot is helping to advance the field of robotics by creating innovative smart home devices that can help to automate household chores. The company is also playing an important role in promoting STEM education for children by providing resources and tools to help teach robotics and coding.

Myomo is a company that makes a powered brace called the MyoPro, which is designed to assist people who have experienced paralysis or weakness in their hands and arms due to a variety of conditions, such as stroke, spinal cord injury, and multiple sclerosis.

The MyoPro is a wearable device that reads nerve signals from the skin's surface, which are then used to activate small motors in the device. These motors facilitate natural arm and hand movements, allowing users to perform everyday tasks such as eating, drinking, and brushing their teeth. The device is lightweight and comfortable to wear, and can be customized to fit each user's unique needs.

Overall, Myomo is helping to improve the quality of life for people who have experienced paralysis or weakness in their hands and arms. The MyoPro provides a non-invasive and easy-to-use solution for people who want to regain their independence and perform everyday tasks with greater ease and confidence.

Rethink Robotics is a company that specializes in manufacturing collaborative robots, also known as cobots, that are designed to work safely alongside human workers. The company offers a range of cobot models that can perform a variety of tasks for several industries, including manufacturing, logistics, and healthcare.

Some of the tasks that Rethink Robotics' cobots can perform include pick-and-place operations, which involve moving parts to and from various locations; co-packaging and end-of-line packaging, which involve packing and preparing products for shipment; CNC machine tending, which involves operating and maintaining computer-controlled machines; and plastic injection and blow molding, which involve shaping plastic into specific forms.

By using cobots, companies can improve their efficiency, productivity, and safety, while also reducing the risk of workplace injuries and errors. Rethink Robotics' cobots are designed to be easy to program and use, allowing companies to quickly integrate them into their existing processes and workflows.

Overall, Rethink Robotics is helping to make manufacturing and other industries more efficient, productive, and safe by providing high-quality, reliable cobots that can work collaboratively with human workers.

Vecna Robotics is a robotics company that designs and manufactures autonomous mobile robots (AMRs) for material handling and logistics applications. Their robots operate in a variety of environments, including warehouses, distribution centers, and manufacturing facilities, where they can transport, lift, and convey a wide range of materials. Vecna's robots use advanced software and sensing technologies, such as lidar and 3D cameras, to navigate and operate safely and efficiently in complex, dynamic environments. The company also offers a range of software solutions for robot fleet management, task scheduling, and real-time monitoring and analytics.

Miso Robotics is focused on automating the kitchen with the help of robots. In addition to Flippy, their robotic kitchen assistant that can handle tasks like frying, grilling, and flipping, they also offer CookRight, an AI-powered coffee-making system that optimizes the brewing process to produce high-quality coffee consistently. The AI-powered CookRight Coffee system that combines metrics like temperature with predictive analytics to produce the perfect cup of coffee.

ReWalk Robotics is a company that specializes in developing exoskeleton technology to aid in medical rehabilitation. The company's exoskeletons are designed to assist individuals with lower limb disabilities, including those who have experienced a stroke or have spinal cord injuries.

The exoskeletons produced by ReWalk Robotics are designed to provide users with functional gait training, helping them to improve their ability to sit, stand, walk, turn, and navigate stairs. The technology behind these exoskeletons allows users to move their legs through a combination of powered motors and sensors that detect the user's movements and adjust accordingly.

By providing this kind of support, ReWalk Robotics is helping people with lower limb disabilities to regain some of their independence and mobility, which can have a significant impact on their quality of life.

Conclusion

Given the magnitude of the AI technology that's available now, it's critically important to provide the tools for developers to create valuable applications that enhance people's lives.

Collaboration among AI companies, political leadership and R&D teams is essentially to ensure the responsible release and meaningful targeted way in which such game changing innovations are released into the commercial marketplace. The potential for human anguish and disorientation is great. Collaboration should be a primary focus to mitigate disruptions.

To get started on your AI business technology plan call 440-597-3964