About Conference
On behalf of Conference series , Global Summit on Robotics and Artificial Intelligence extend warm welcome to all the speakers, delegates, students and young achievers professionals attending the Global Summit on Robotics and Artificial Intelligence during August 28-29, 2023 at Prague, Czech Republic. ROBOTICS 2023 is a multifaceted educational forum and expo dedicated to addressing the issues involved with the design, development, manufacture and delivery of commercial robotics and intelligent systems products and services. The program of keynotes and general sessions are designed to provide professionals the information they need to successfully develop the next generation of commercial robotics systems.
ROBOTICS 2023 brings together in one place, at one time, technical and business professionals from across the globe to share knowledge, experience and insights with the goal of driving robotics development and innovation forward.
Why to Attend?
Brightest Minds – At the ROBOTICS 2023, the brightest minds in robotics from around the world to share their commercial robotics development experiences and expertise.
Compelling Keynotes – ROBOTICS 2023 keynotes are delivered by robotics thought leaders from leading companies and agencies on topics that are timely, compelling, educational and inspiring.
Actionable Content – ROBOTICS 2023 general sessions and panels are specifically designed to impart to technical professionals the information they need to successfully develop the next generation of commercial robotics systems. Speakers will share their expertise on a variety of topics throughout four tracks: Technologies, Tools and Platforms Track; Design and Development Track; Manufacturability, Production and Distribution.
Leading Companies – The ROBOTICS 2023 provides attendees with numerous opportunities to meet with the leading companies offering the latest design and development solutions for producing robotics and intelligent systems products and services.
Who Will Attend?
Technical and business professionals from all over the world, chartered with developing the next generation of commercial class robotics and intelligent systems products and services should attend, including:
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Software and Hardware Developers
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Producers of Robotics and Intelligent Solutions
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Researchers and Academics
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Media Representatives
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Technology/Business Analysts
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Investment Professionals
Sessions and Tracks
Session 1: Cyborg technology
Humans are integrating with technology. Not in the future – now. With the emergence of custom prosthetics that make us stronger and faster, neural implants that change how our brains work, and new senses and abilities that you’ve never dreamed of having, it’s time to start imagining what a better version of you might look like. Four years later, despite warnings from the surgeon, he had neural interfaces implanted that allowed him to control a robotic arm on another continent and communicate, nervous system to nervous system, with his wife, Irena, via electrodes in her arm.
Back then it was considered risky, even reckless. He went ahead anyway, creating a media circus as he demonstrated how the chip made him remotely traceable to a computer and allowed him to open the automated security doors at his University of Sheffield lab without touching them. Some call it Tran’s humanism. It’s not a philosophy cybernetics expert Kevin Warwick associates himself with, but he can’t deny he’s a cyborg… or was. Warwick had a 2.5cm-long radio frequency identification (RFID) chip implanted in his arm in 1998.
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Sessions 2: Artificial intelligence
Artificial intelligence, the first thing they usually think of is robots. Artificial intelligence is based on the principle that human intelligence can be defined in a way that a machine can easily mimic it and execute tasks, from the most simple to those that are even more complex. The goals of artificial intelligence include mimicking human cognitive activity.
Researchers and developers in the field are making surprisingly rapid strides in mimicking activities such as learning, reasoning, and perception, to the extent that these can be concretely defined. Some believe that innovators may soon be able to develop systems that exceed the capacity of humans to learn or reason out any subject.
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Session 3: New approaches in Robotics and Automation
In order to build autonomous robots that can carry out useful work in unstructured environments new approaches have been developed to building intelligent systems. The relationship to traditional academic robotics and traditional artificial intelligence is examined.
In the new approaches a tight coupling of sensing to action produces architectures for intelligence that are networks of simple computational elements which are quite broad, but not very deep. Recent work within this approach has demonstrated the use of representations, expectations, plans, goals, and learning, but without resorting to the traditional uses of central, abstractly manipulable or symbolic representations.
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Session 4: Internet of things (IOT)
The Internet of Things (IoT) describes the network of physical objects—“things”—that are embedded with sensors, software, and other technologies for the purpose of connecting and exchanging data with other devices and systems over the internet.
These devices range from ordinary household objects to sophisticated industrial tools. With more than 7 billion connected IoT devices today, experts are expecting this number to grow to 10 billion by 2020 and 22 billion by 2025. Oracle has a network of device partners .Over the past few years, IoT has become one of the most important technologies of the 21st century. Now that we can connect everyday objects—kitchen appliances, cars, thermostats, baby monitors—to the internet via embedded devices, seamless communication is possible between people, processes, and things.
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Session 5: Block chain and Machine learning
Block chain and Machine Learning (ML) have been making a lot of noise over the last couple of years, but not so much together. As a distributed ledger, block chain can manage almost any type of transaction in existence. This is the primary reason behind its rapidly growing popularity and power. The block chain is designed specifically to accelerate and simplify the process of how transactions are recorded.
This means that any type of asset can be transparently transacted using this completely decentralized system. The key difference here is the fact that there’s no involvement from intermediaries like the government, banks, or even technology companies. Instead, it’s a massive collaboration with some great code which significantly reduces settlement and clearing times to a matter of seconds.
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Session 6: Human Robotics
Humanoids robots have been gaining popularity in India for quite some time now. Although the country is still catching up with the developments in artificial intelligence and robotics as compared to others, Indian start-ups, as well as the government, are working at a rapid pace to integrate new-age technologies.
According to IFR research, robot sales in India increased by 27 percent to a new peak of 2,627 units in India — almost the same as in Thailand. Another survey claims that India ranks third in implementing robotic automation.
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Sessions 7: Intelligent Mechatronics and robotics
Intelligent mechatronics is a technology on how to give human psychology to mechanical system so that human and mechanical system could interact with each other. The interaction between human and mechanical/computer system is still asymmetrical, because mechanical/compute system cannot understand human psychology well, although human can easily understand the computer way of thinking.
The goal of intelligent mechatronics is to achieve a symmetrical interaction between human and mechanical system. Intelligent mechatronics is a new discipline based on the integration of mechanical, electrical, information technology, and human sciences including medicine, psychology, social science, and so forth.
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Session 8: Computer vision
Computer Vision, often abbreviated as CV, is defined as a field of study that seeks to develop techniques to help computers “see” and understand the content of digital images such as photographs and videos.
The problem of computer vision appears simple because it is trivially solved by people, even very young children. Nevertheless, it largely remains an unsolved problem based both on the limited understanding of biological vision and because of the complexity of vision perception in a dynamic and nearly infinitely varying physical world.
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Session 9: Drones
Drones, sometimes referred to as “Unmanned Aerial Vehicles” (UAVs) are meant to carry out tasks that range from the mundane to the ultra-dangerous. These robot-like vehicles can be found assisting the rescue of avalanche victims in the Swiss Alps, at your front doorstep dropping off your groceries and almost everywhere in between
Drones have found their way into the mainstream because of the enhanced levels of safety and efficiency they bring. These robotic UAVs operate without a pilot on board and with different levels of autonomy. A drone’s autonomy level can range from remotely piloted (a human controls its movements) to advanced autonomy, which means that it relies on a system of sensors.
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Session 10: Industrial applications of Robotics
Robotics has been used for decades in the automotive industry, but many industries since have seen the benefits of robotic automation. The rule of thumb for what industrial tasks are best for robots is the "Three D's" rule: Any task that is Dirty, Dull or Dangerous.
Typical robotic applications are simple and repetitive tasks that require dedicated resources to perform. With recent advancements in machine vision, artificial intelligence, collaborative robotics and other technologies, robots are more capable than ever to perform complex tasks that typically require human-like recognition, judgement and dexterity.
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Session 11: Robotics in agriculture and Forestry
Robotics for agriculture and forestry (A&F ) represents the ultimate application of one of our society’s latest and most advanced innovations to its most ancient and important industries. Mechanization and automation increased crop output several orders of magnitude, enabling a geometric growth in population and an increase in quality of life across the globe.
Robotics for A& F in the form of case studies where robotics is being successfully applied to solve well-identified problems. With respect to plant crops, the focus is on the in-field or in-farm tasks necessary to guarantee a quality crop and, generally speaking, end at harvest time. In the livestock domain, the focus is on breeding and nurturing, exploiting, harvesting, and slaughtering and processing.
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Session 12: Surgical Robots and Medical Robots Systems
Robots now make an impact in laparoscopy, neurosurgery, orthopaedic surgery, emergency response, and various other medical disciplines. The capabilities of current medical robot systems, primarily focusing on commercially available systems while covering a few prominent research projects.
By examining robotic systems across time and disciplines, trends are discernible that imply future capabilities of medical robots, for example, increased usage of intraoperative images, improved robot arm design, and haptic feedback to guide the surgeon.
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Session 13: Mobile Robotics
A mobile robot is a robot that is capable of moving in the surrounding (locomotion). Mobile robotics is usually considered to be a subfield of robotics and information engineering. A spying robot is an example of a mobile robot capable of movement in a given environment.
Mobile robots have the capability to move around in their environment and are not fixed to one physical location. Mobile robots can be "autonomous" (AMR - autonomous mobile robot) which means they are capable of navigating an uncontrolled environment without the need for physical or electro-mechanical guidance devices.
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Session 14: Micro-robots and Nano-robots
Micro robots are intelligent machines that operate at micron scales. The micron sized robots were fabricated and assembled by tools and processes developed by IRIS researchers. Many of these systems are used for robotic exploration within biological domains, such as in the investigation of molecular structures, cellular systems, and complex organism behaviour.
Nano-robots remain in the realm of science fiction, though research efforts related to small-scale robotics are beginning to approach these dimensions. Nano robots are robots that are Nano scale in size or large robots capable of manipulating objects that have dimensions in the nanoscale range with Nano meter resolution. Nano robotic manipulation is an enabling technology for Nano electromechanical Systems or NEMS.
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Session 15: Robotic System Based on soft computing
The network robotic system, which is a new trend in robotic systems. The hierarchical control scheme has three levels: learning level, skill level and adaptation level. The learning level manipulates symbols to reason logically for control strategies.
The skill level produces control references along with the control strategies and sensory information on environments. The adaptation level controls robots and machines while adapting to their environments which include uncertainties. For these levels and to connect them, artificial intelligence, neural networks, fuzzy logic, and genetic algorithms are applied to the hierarchical control system while integrating and synthesizing themselves.
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Session 16: Marine Robotics
Marine Robotics has expand from developing navigation and control algorithms for underwater and surface vehicles, to powered self-governed underwater vehicles routinely able to dive beyond 6000 meters.
Marine Robotics as a field is set up to make a major donation to understanding large scale social problems.
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Market Analysis
The ROBOTICS 2023 market was valued at USD 23.67 billion in 2020, and it is expected to reach USD 74 billion by 2026 and register a CAGR of 20.4% over the forecast period (2021-2026). The market is experiencing a significant transformation, with robots growing beyond the workhorses of industrial shop floors and beginning to adopt the roles of personal assistants, surgical assistants, delivery vehicles, autonomous vehicles, exoskeletons, and crewless aerial vehicles, among many other uses. In the past decade, industrial robots industrial robots used to be high priced, due to which, the ROI is expected to be achieved after a decade. However, presently, smaller collaborative robots are priced for companies to receive ROI in months instead of decades, often costing around USD 20,000. Declining sensor prices and increasing adoption have further aided lower costs.
The proliferation of armed ground robots at recent defence trade shows indicates that the US military and its allies and partners are warming to the idea of sending such platforms onto the battlefield. In May 2020, Sphere, the company behind robotic toys like the BB-8 robot and educational robotics kits, announced that it spins its public safety division into a new company, dubbed Company Six. It plans to commercialize robots and AI software for first responders, government, defence, and those who work in dangerous situations. Sphere has brought four million robots to market, which includes programmable tank robots. The company would see an opportunity in the military and first responder space as police in Massachusetts are reportedly testing Boston Dynamics’ Spot robot. The UK military has bomb disposal robots, and the US is testing robotic combat vehicles.
Earlier, use of robots was limited to the automotive and manufacturing sectors. However, with the availability of customized solutions, industries such as healthcare, defence & security, aerospace, education, food & beverage, domestic, and electronics are adopting robotics technology to enhance their efficiency. In addition, rise in demand from the healthcare sector for tele-surgery and care for the elderly and disabled people has boosted the sale of robots. Defence and security sectors are further implementing robotics at a high pace for bomb diffusion, mine detection, and monitoring. In the coming years, robotics technology is expected to be used for different applications, which is expected to augment the growth of the market.