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Sydney, Australia
1-10 Employees
2018
At Robotic Engineering Solutions, we’re passionate about innovative ideas and exceptional service.
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Featured
Welcome to Robotic Engineering Solutions
... Welcome to Robotic Engineering ...
Ravenna, Italy
1-10 Employees
2013
Our mission is to prove the validity and effectiveness of underwater robotics operations with compact ROV systems, as well as increase the operational performance of such systems in terms of depth, environmental conditions and purposes of work, but it is also to maintain sustainable the growth rate of the Company through a careful process of structuring, strengthening the staff and the assets and expansion of the engineering services offered in the field of underwater activities while maintaining the high quality standard. Is a company that designs and supplies robotics and underwater engineering services, geophysical, geotechnical, hydrographic and topographic, onshore and offshore surveys. The Company is based in Ravenna and it was established by a team of young professionals and skilled entrepreneurs, who are operating into Oil&Gas Offshore and Underwater Services for several years. Services provided include non-destructive tests on steel underwater structures by remote operated vehicles with qualified and certified personnel according to international standards, such as oil production & drilling platforms, mooring systems and other offshore installations. Subsea Fenix is also capable to provide in-depth condition monitoring of underwater civil structures like bridges, dams, docks and any other submerged artifact; we can take morphological and dimensional scans of eventual foreign bodies detected, anomalies and/or interment. Subsea Fenix provide offshore and onshore Survey services with cutting edge equipments:. The corporate culture is hinged around professional dynamism and brilliance, as well as the continuous improvement of services with remote-controlled machines in quality, variety and reliability. Subsea Fenix Team is a pool of qualified, dynamic and enthusiastic professionals.
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ROBOTICS & ENGINEERING SERVICES
... Subsea Fenix is a company that provides expertise services in underwater robotics, engineering for underwater works and survey. The company is based ...
London, United Kingdom
1-10 Employees
2022
As proactive and strategic partners, we provide valuable guidance and insights on talent acquisition trends, market intelligence, and industry best practices. Collaboration is at the heart of our approach because we are convinced that partnerships yield better results. Our top priority is the people we work with.
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AI Silicon & Robotics Engineering | tacqIO
... AI Silicon & Robotics Engineering | ...
Kochi, India
11-50 Employees
1988
The trusted name among the commercial suppliers of electronic components. We believe our aspirations are our possibilities. From Resistors to Single chip computers, you name it! We got it all covered for you. We sell electronics & electromechanical components to aggrandize DIY CULTURE & ROBOTICS in Kochi, Ernakulam, Kerala, India. With thorough knowledge in this field, we can communicate with our consumers, answer their queries and give them excellent choices for their purchase. As a passionate tech geek we browse domestic and international markets to find best quality components and reach you with meaningful offers and deals.
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Flysky FS-i6S 2.4GHz 10CH AFHDS 2A RC Touch Control Transmitter With F – TOMSON ELECTRONICS
... Multi-channel Hopping Frequency Omnidirectional Gain Antenna Unique ID Recognition System Low Power Consumption Suitable for quadcopter, robotics, engineering vehicle, etc Capacitive touch screen Transmitter FS-i6S Specification : Channels: 10 Models: quadcopter, robotics, ...
Leonding, Austria
1-10 Employees
Wir verfügen alle über langjährige Erfahrung in der Automatisierungsbranche und kennen daher die Bedürfnisse und Anforderungen unserer Kunden. Fundiertes technisches Wissen ist der Garant für unsere erfolgreiche und zukunftssichere Ausrichtung im Automatisierungsmarkt. Um Produktionsprozesse nicht durch Ausfälle zu gefährden, ist es entscheidend, Ihre Anlagen bzw.
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PLC and robotics engineering and commissioning
... PLC and robotics engineering and commissioning - Automotion Steuerungstechnik - Ö ...
Baden, Switzerland
1-10 Employees
2019
We are pleased to announce that German robot manufacturer NEURA Robotics selected Comexis as the main distributor of its collaborative industrial robot portfolio for Switzerland and Liechtenstein. This enables Comexis to offer you the complete range of services for complex automation projects from a single source. Delivering excellence in everything we do, and covering your needs from the initial concept development to engineering and manufacturing, to installation and commissioning of the final product on site, to providing customer training all the way to providing after-sales and maintenance services. Whatever services you may require in the field of industrial automation and robotics, Comexis will deliver from its Swiss home base to anywhere in the world.
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Startseite / Comexis GmbH
... Selected Experience in Robotics, Engineering and ...
Bloomfield Hills, United States
11-50 Employees
2014
Committed to pushing the boundaries of Automated solutions helps us focus on the bottom line. Our specialized engineering team is committed to ensure timely and accurate project and resource delivery. Established in Michigan in 2014, Humber Automated Systems specializes in turnkey engineering solutions and production readiness for Factory 4.0 manufacturing. Humber Automated Systems delivers expert mechanical, electrical, controls and robotics engineering. We offer custom mechanical design and analysis, electrical design and software development, machine start-up and integration.
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Services
... Controls & Robotics Engineering ...
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Featured
Fischer Robotics & Engineering
... Fischer Robotics & Engineering ...
Baltimore, United States
1-10 Employees
2019
Roland Matte is a dynamic and result-oriented individual with 27+ years of IT Staffing and Technical Recruiting, Sales and New Business Development experience specializing in the best Secret, TS, TS/SCI and TS/SCI w/ FSP and CI poly cleared and non-cleared candidates. He has excelled in the Defense and Aerospace, Intelligence, Technology, Manufacturing, Financial Services, IT Consulting, Security, Commercial, Start Up, and Private Equity markets. His Technical acumen and experience encompasses the placement of Software Engineers, DevOps Engineers, Framework Developers, Cloud and Virtualization Experts, Embedded Engineers, Hardware Engineers, and a wide range of ERP skill sets. Roland’s recent Executive Recruiting experience includes placement of Information Technology Manager, Director of Operations, Director of Business Development – ISR, Accounting Manager, Vice President of Sales, Chief Financial Officer, Senior Program Management, Chief Executive Officer, and Director of Cost Accounting/Contracts Management. He has a granular understanding of SIGINT, ELINT, ISR, Radars, Combat Management, Fire Control, C-RAM, UAV/UCAV, and Aerospace Engineering Ecosystems and Market Places.
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Robotics Engineering Recruiting
... Robotics Engineering Recruiting - Bull Integrations ...
Houston, United States
11-50 Employees
2020
Our mission is to deliver safe and reliable solutions to increase productivity. We believe we are leaders in developing robotic technology to make autonomy accessible.
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Featured
Services | ZAPT | Houston, Texas
... Additionally, with expertise in complex sensor integration, we provide autonomous and robotic engineering services for outdoor power equipment. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Robotic Engineering
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 169 |
| Amount of suitable service providers | 158 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1988 |
| Youngest suiting company | 2022 |
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Robotic Engineering is a multidisciplinary branch of engineering that incorporates concepts from mechanical, electrical, and computer science engineering to design, construct, program, and operate robots and robotic systems. These systems are intended to perform tasks that can range from the mundane and repetitive to those that are complex and hazardous, which humans may find difficult or dangerous to undertake. The field emphasizes the creation of machines that can operate autonomously or semi-autonomously, integrating advanced software algorithms with hardware components for perception, navigation, manipulation, and locomotion. The impact of robotic engineering is profound and far-reaching, revolutionizing industries such as manufacturing, where robots increase efficiency and safety on production lines; healthcare, through surgical robots that offer precision beyond human capability; and even in everyday life, with the development of domestic robots for cleaning and assistance. Additionally, robotic engineering plays a crucial role in space exploration, underwater research, and disaster response, where robots can access environments inhospitable to humans. The continuous evolution of this field, driven by innovations in artificial intelligence and machine learning, promises to further expand the capabilities of robots, enhancing their autonomy, adaptability, and integration into human society.
1. Increased Efficiency
Robotic engineering brings unparalleled efficiency to manufacturing and production processes. Robots can operate 24/7 without the need for breaks, significantly reducing downtime and increasing output. Their precision and speed surpass human capabilities, leading to higher quality products with fewer errors.
2. Cost Reduction
Over the long term, implementing robotic systems can lead to substantial cost savings. Although the initial investment may be high, robots reduce the ongoing costs of labor, maintenance, and even energy consumption. They can perform the work of several people and often do so more efficiently, helping businesses to scale operations without a proportional increase in expenses.
3. Enhanced Safety
Robotic engineering significantly enhances workplace safety by taking over dangerous tasks that pose risks to human workers. Robots can work in hazardous environments and handle toxic substances, reducing workplace injuries and improving overall working conditions. This not only protects employees but can also reduce insurance and liability costs for businesses.
4. Flexibility and Innovation
The versatility of robots allows them to be reprogrammed and adapted to various tasks, making robotic systems highly flexible for different production needs. This adaptability fosters innovation, as businesses can easily integrate new technologies and improve their processes without extensive retraining or restructuring.
1. Experience and Expertise
Ensure the supplier has a robust portfolio demonstrating their experience in robotic engineering. Look for projects similar to yours to gauge their capability.
2. Technological Advancements
Evaluate their use of the latest technologies and methodologies in robotics. Cutting-edge innovations indicate a forward-thinking and capable supplier.
3. Customization Capabilities
Determine their ability to tailor solutions to your specific needs. Flexibility and customization are key for unique projects.
4. Quality Assurance
Check for quality certifications and standards compliance. This ensures the reliability and durability of the robotic systems they provide.
5. After-Sales Support
Inquire about their support and maintenance services. Reliable after-sales support is crucial for the long-term success of your project.
6. Cost Efficiency
Consider the overall cost-effectiveness of their solutions. Look for competitive pricing without compromising on the quality or capabilities of the robotic systems.
Robotic engineering is transforming the manufacturing industry by streamlining production processes. Through automated assembly lines, robots enhance efficiency and precision, reducing human error and production time. This innovation is pivotal for businesses looking to scale operations without compromising on quality. In the healthcare sector, robotic engineering is revolutionizing patient care. Surgical robots, equipped with high-precision tools, assist in complex surgeries, improving outcomes with minimal invasiveness. Additionally, robotic aides support patient mobility and rehabilitation, offering a new level of care and independence for individuals with physical impairments. Agriculture is another field reaping the benefits of robotic engineering. Autonomous tractors and drones optimize farming practices by performing soil analysis, planting, and crop monitoring. These advancements lead to higher yields, reduced labor costs, and more sustainable farming methods, addressing food security and efficiency challenges. The logistics and supply chain industry employs robotic engineering to enhance warehouse operations. Robots expedite sorting, packing, and shipping processes, enabling faster and more accurate order fulfillment. This efficiency is crucial for businesses aiming to meet the growing demands of e-commerce and global trade. By integrating robotic engineering, industries across the board are achieving unprecedented levels of productivity, safety, and innovation. This technological advancement is not just reshaping business operations but also setting new standards for competitiveness and growth.
Robotic Engineering, as a multidisciplinary field, encompasses a wide range of technologies each at varying stages of development, making it challenging to assign a singular Technology Readiness Level (TRL). However, many core aspects of robotic engineering are considered to be at TRL 6 or above, indicating that prototype system demonstrations in operational environments have been successful. This advanced TRL reflects significant technical achievements, including the integration of sophisticated artificial intelligence algorithms, advanced materials for enhanced durability and flexibility, and highly efficient power systems. These developments have been driven by substantial research and development efforts, as well as rapid advancements in related fields such as computer science and materials science. Key factors contributing to this level include the successful deployment of robots in complex scenarios such as manufacturing plants, hazardous environment exploration, and healthcare, where they perform tasks with high autonomy and reliability. Despite this, the field continues to face challenges, such as enhancing the robots' ability to interact with unpredictable environments and refining their decision-making capabilities, which are critical areas of focus for moving the entire discipline to higher TRLs. Thus, while robotic engineering as a whole demonstrates a high degree of technological maturity, ongoing research and development are crucial for overcoming existing limitations and broadening the application spectrum of robotic systems.
In the short-term, robotic engineering is set to experience significant advancements in artificial intelligence and machine learning algorithms. These improvements will enable robots to perform tasks with greater precision and adaptability, particularly in manufacturing and healthcare settings. Enhanced sensor technologies will also play a crucial role, allowing robots to better understand and interact with their environment, making them more efficient and safer co-workers alongside humans. Mid-term developments in robotic engineering are expected to focus on autonomy and collaboration. As robots become more independent, they will require less human intervention, achieving tasks more efficiently and with minimal error. This period will also witness the rise of collaborative robots (cobots) that are designed to work hand-in-hand with human beings, further blurring the lines between human and machine capabilities. Additionally, advancements in battery technology and energy efficiency will enable robots to operate for longer periods without the need for frequent recharging. Looking at the long-term horizon, the integration of robotics with quantum computing and nanotechnology is anticipated. This convergence will likely result in breakthroughs in speed, processing power, and miniaturization, opening new avenues for robotic applications in fields previously deemed impractical. Robots could become an integral part of everyday life, performing complex surgeries, exploring hazardous environments, and even conducting intricate repairs at the molecular level, revolutionizing how we interact with the physical world.
Some interesting questions that has been asked about the results you have just received for Robotic Engineering
What are related technologies to Robotic Engineering?
Based on our calculations related technologies to Robotic Engineering are Education, Engineering Services, IT & Technology Services, Healthcare Services, Consulting
Who are Start-Ups in the field of Robotic Engineering?
Which industries are mostly working on Robotic Engineering?
The most represented industries which are working in Robotic Engineering are Manufacturing, Science and Engineering, Education, Information Technology, Software
How does ensun find these Robotic Engineering Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
