Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
The idea of creating machines which can operate autonomously dates back to olden times, but the proper research into the implementation and potential uses of robots did not grow properly until the 20th century. Throughout history, it has been frequently assumed that on one day robots will be able to imitate human behaviour and manage tasks in a human-like fashion. Today, robotics is one of the rapidly growing fields domestically, commercially, or militarily. Numerous robots are built to do jobs that are dangerous for mankind such as defusing bombs, finding survivors in unstable ruins, and exploring mines and shipwrecks
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
SAS Global Forum April 8-11, Denver, CO, USA | 2006 - Haptics Symposium, Arlington, Virginia, USA, March 25-26 | 2005 - World Haptics, Pisa, Italy March 18-20 | 2004 - Haptics Symposium, Chicago, Illinois US | 1993 - Haptics Symposium, New Orleans, Louisiana, USA | 1992 - World Haptics, Anaheim, California, USA | Global summit on Nanotechnology and Nanorobotics, November 8-9, 2017 New Orleans, Louisiana, USA | 2013 - World Haptics, Daejeon, South Korea April 14-18, 2013 | 2016 5th International Mechatronics and Control Engineering (ICMCE) Venice, Italy
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences2016 5th International Mechatronics and Control Engineering
(ICMCE) Venice, Italy | 2016 13th International Symposium on Distributed Autonomous Robotic Systems (DARS), London, England | 2013 World Haptics Daejeon, South Korea, April 14-18 | 2012 Haptics Symposium Vancouver, Canada March 20-22 | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong, Deep Learning Summit, April 12-13, Hong Kong
Related Societies and Associations:
Japan Robot Association | Swedish Robotics Society | International Federation of Robotics | Robot Research Initiative | Livingston Robotics Club | Robotic Industries Association | Robot Research Initiative
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Global summit on Nanotechnology and Nanorobotics, November 8-9, 2017 New Orleans, Louisiana, USA | 2013 World Haptics, Daejeon, South Korea April 14-18 | 2016 5th International Mechatronics and Control Engineering (ICMCE) Venice, Italy | 2016 13th International Symposium on Distributed Autonomous Robotic Systems (DARS), London, England | SAS Global Forum April 8-11, Denver, CO, USA
Related Societies and Associations:
Japan Robot Association | Bristol Robotics Laboratory | International Federation of Robotics | Robot Research Initiative | Robotic Industries Association | Robot Research Initiative
Internet of Things (IoT) is a concept that uses physical devices which are connected to the internet and can communicate with each other via exchange of data. The collected data could be processed intelligently to make the devices smarter.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Nuclear Robotics is an interdisciplinary wing that develops and deploys very advanced robots in hazardous environments to reduce the risk for mankind. Researchers complete a rigorous interdisciplinary curriculum to understand the requirements for deploying systems in the nuclear or other relevant domain. The UK has 4.9 million tonnes of legacy nuclear waste. Cleaning this up is the largest and most complex environmental remediation task in Europe. Much of this work must be carried out by robots because the materials are too hazardous for humans. However, the robotic solutions required just do not yet exist. The NCNR will be at the leading position for enhancing these technologies. Its researchers will lead the way in world-leading robotics and AI, and training the next generation of nuclear roboticists.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Human-robot interaction is the study of interactions between humans and robots. It is often referred to as HRI by researchers. Human-robot interaction is a multidisciplinary field with contributions from human-computer interaction, artificial intelligence, robotics, natural language understanding, design, and social sciences. Human-Robot Interaction (HRI) is an advanced stream that has been grabbing a lot of attention over the past few years due to the increase in availability of complex robots and people's exposure to such robots in their daily lives, e.g. as robotic toys or, to some extent, as household appliances (robotic vacuum cleaners or lawn movers). Nowadays robots have been used vastly for real-world applications such as robots in rehabilitation, eldercare, robot-assisted therapy and in educational applications. Due to the advancement in AI, the research is concentrating not only towards the safest physical interaction but also on a socially correct interaction, dependent on cultural criteria. The aim is to create an intuitive, and easy communication with the robot through speech, gestures, and facial expressions.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
2016 5th International Mechatronics and Control Engineering, Venice, Italy | 2016 13th International Symposium on Distributed Autonomous Robotic Systems, London, England | 2013 World Haptics Daejeon, South Korea, April 14-18 | 2012 Haptics Symposium Vancouver, Canada March 20-22 | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong | Deep Learning Summit, April 12-13, Hong Kong
Related Societies and Associations:
Swedish Robotics Society | International Federation of Robotics | Japan Robot Association | Bristol Robotics Laboratory | Robotic Industries Association | Robot Research Initiative
Nanorobotics is an upcoming advanced technology which enables to create robots at or near the scale of a nanometre. More specifically, nanorobotics refers to the nanotechnology engineering stream of designing and creating nanorobots, with devices ranging in size from 0.1–10 micrometres and constructed of nanoscale or molecular components. Nanobot, nanoid, nanite, nanomachine, or nanometer are some of the terms that can be used to describe such devices which are currently under the research and development. Another definition of nanorobot is a robot that allows precise interactions with nanoscale objects or can manipulate with nanoscale resolution. Such devices are more related to microscopy or scanning probe microscopy, instead of the description of nanorobots as a molecular machine. Equipment such as an atomic force microscope can be understood as a nanorobot when made to perform nanomanipulation. For this viewpoint, macroscale robots are microrobots that can move with nanoscale precision.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
With the rise of Deep Learning concepts that rely on neurons based models, researchers have been developing hardware chips which can directly implement neural network architecture. These chips are programmed to mimic the brain at the hardware level. Usually, in an ordinary chip, the data is required to be transferred between the central processing unit and storage blocks, which results in time overheads and energy consumption. In a neuromorphic chip, data is both compiled and stored in the chip in an analogue manner and can generate synapses when required, saving time and energy.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
2016 13th International Symposium on Distributed Autonomous Robotic Systems (DARS), London, England | 2013 World Haptics, Daejeon, South Korea, April 14-18 | 2012 Haptics Symposium Vancouver, Canada March 20-22 | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong, Deep Learning Summit, April 12-13, Hong Kong | Robotics 2018 | 4th International Conference and Expo on Automobile Engineering and design, May 16-17, 2018 Tokyo, Japan | Global summit on Nanotechnology and Nano robotics, November 8-9, 2017 New Orleans, Louisiana, USA | 5th International conference on Automation and Robotics, April 16-17, 2018 Las Vegas, USA | 5th International conference on Artificial Intelligence, April 16-17, 2018 Las Vegas, USA | 4th Global Summit and Expo on Multimedia & Artificial Intelligence, July 19-21, 2018 Rome, Italy | SAS Global Forum April 8-11, Denver, CO, USA | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong | Deep Learning Summit, April 12-13, Hong Kong | SAS Global Forum April 8-11, Denver, CO, USA | 2006 Haptics Symposium, Arlington, Virginia, USA, March 25-26 | 2005 World Haptics, Pisa, Italy, March 18-20 | 2004 Haptics Symposium, Chicago, Illinois US
Basically, Robotic Vision involves a combination of camera hardware and computer algorithms to enable robots to sense and process visual data regarding the world. For instance, some systems have a 2D camera which detects an object for the robot to pick up. An example involving complexity is to use a 3D stereo camera to make a robot function to mount wheels onto a moving vehicle. Without Robotic Vision, a robot is essentially blind. This is not a problem for many robotic tasks, but for some applications, Robot Vision is useful or even essential. Robot Vision is also related to Machine Vision. The terms robot vision, as well as Machine vision, are closely related to Computer Vision. If we were talking about a family tree, Computer Vision could be seen as their "parent."This is one of the fascinating field of visual intelligence as well as machine learning. Visual intelligence enables a robot to “sense” and “recognize” the environment. It also enables a robot to “learn” from the memory of past experiences by extracting patterns in visual signals.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
2016 13th International Symposium on Distributed Autonomous Robotic Systems (DARS), London, England | 2016 5th International Mechatronics and Control Engineering, Venice, Italy | 2012 - Haptics Symposium Vancouver, Canada March 20-22 | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong | Deep Learning Summit, April 12-13, Hong Kong.
Rehabilitation robotics is considered as a specific focus of biomedical engineering. In this field, clinicians, therapists, and engineers collaborate to help rehabilitate patients. Prominent goals in the field include developing implementable technologies that can be easily used by patients, therapists, and clinicians enhancing the efficiency of clinician's therapies and thereby enlarging the ease of activities in the daily lives of patients. From the past decade, the number of rehabilitation robots has increased but they are very limited due to the clinical trials. Many clinics have trials but did not accept the robots because they wish they were remotely controlled. Making Robots involved in the rehabilitation of a patient has some advantages. One of the positive aspects is the fact that you can repeat the process as many times as you desired. Another positive aspect is the fact that you can get accurate measurements of their improvement or decline. You can get the exact measurements via sensors on the device. While the robot is about to take measurements, one needs to be careful because the robot may be disrupted. The rehabilitation robot can be able to apply constant therapy for long periods. The rehabilitation robot is a useful machine to use according to many therapists, scientists, and patients who have undergone the therapy. In the process of a recovery, he is unable to understand the patient’s needs like a well-experienced therapist would. The robot is unable to understand now but in the future, the device will be able to understand. Another advantage of having a rehabilitation robot is that there will be no physical effort to put into work by the therapist.
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
2016 13th International Symposium on Distributed Autonomous Robotic Systems (DARS), London, England | 2013 -World Haptics, Daejeon, South Korea April 14-18, 2013 | 2012 Haptics Symposium Vancouver, Canada March 20-22 | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong | Robotics 2018 | 4th International Conference and Expo on Automobile Engineering and Design, May 16-17, 2018 Tokyo, Japan | Global summit on Nanotechnology and Nano Robotics, November 8-9, 2017 New Orleans, Louisiana, USA | 5th International conference on Automation and Robotics, April 16-17, 2018 Las Vegas, USA | 5th International conference on Artificial Intelligence, April 16-17, 2018 Las Vegas, USA | 4th Global Summit and Expo on Multimedia & Artificial Intelligence, July 19-21, 2018 Rome, Italy | SAS Global Forum April 8-11, Denver, CO, USA | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong | Deep Learning Summit, April 12-13, Hong Kong | SAS Global Forum April 8-11, Denver, CO, USA | 2006 Haptics Symposium, Arlington, Virginia, USA, March 25-26 | 2005 World Haptics, Pisa, Italy, March 18-20 | 2004 Haptics Symposium, Chicago, Illinois US
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Cloud robotics is a branch of robotics that deals with advanced cloud technologies. cloud computing, cloud storage, and other Internet technologies centred on the benefits of converged infrastructure and shared services for robotics can be known via cloud robotics. When robots are made to connect with the cloud, they can be benefited due to the powerful computation, storage, and communication resources of a modern data centre in the cloud, that can process and share information from various robots or agent. Humans can also delegate tasks to robots remotely through networks. These Cloud computing technologies enable robot systems to be provided with powerful capability while reducing costs through cloud technologies. Hence, it is possible to create a lightweight, low cost, smarter robots that have intelligent "brain" in the cloud. The brain in the cloud plays a vital role and responsibility for deep learning, information processing, environment models, communication support etc. Although robots are benefited from numerous advantages of cloud computing, the cloud itself is not the troubleshooter to all of the robotics. Controlling a robot’s movements which depends majorly on (real-time) sensors and feedback of the controller may not benefit much from the cloud. Tasks that involve real-time execution require onboard processing. Cloud-based applications may also get delayed or unavailable due to high-latency responses or network hitch. If a robot relies too much on the cloud, a fault in the network could leave it “brainless.”
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Related Conferences: Robotics Conferences | Mechatronics Congress | Artificial Intelligence Conferences | Engineering Conferences | Deep Learning conferences | Industrial Engineering Meetings | Robotics and Automation Conferences
Robotics 2018 | 4th International Conference and Expo on Automobile Engineering and Design, May 16-17, 2018 Tokyo, Japan | Global summit on Nanotechnology and Nanorobotics, November 8-9, 2017 New Orleans, Louisiana, USA | 5th International Conference on Automation and Robotics, April 16-17, 2018 Las Vegas, USA | 5th International Conference on Artificial Intelligence, April 16-17, 2018 Las Vegas, USA | 4th Global Summit and Expo on Multimedia & Artificial Intelligence, July 19-21, 2018 Rome, Italy | SAS Global Forum April 8-11, Denver, CO, USA | Marketing Analytics and Data Science conference, April 11-13, San Francisco, CA, USA | Machine Intelligence Summit, April 12-13, Hong Kong, Deep Learning Summit, April 12-13, Hong Kong.
Related Societies and Associations:
Bristol Robotics Laboratory | British Automation and Robotic Association | Australian Centre for Field Robotics | Intelligent Robotics Group | International Federation of Robotics | Robotic Industries Association | Robot Research Initiative
All accepted abstracts will be published in respective Allied Academies Journals.
Abstracts will be provided with Digital Object Identifier by
