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The future of AI in robotics: industry perspectives and technological advancements

At the epicenter of these transformations is Mahmoodreza Forootan, a scientist and lead engineer trailblazing the path toward the future of robotics, electric vehicles, and smart city solutions.

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Opinions expressed by Digital Journal contributors are their own.

The robotics landscape is rapidly evolving, punctuated by technological breakthroughs and novel applications in diverse industries. At the epicenter of these transformations is Mahmoodreza Forootan, a scientist and lead engineer trailblazing the path toward the future of robotics, electric vehicles, and smart city solutions.

Forootan’s groundbreaking research during his Ph.D. at the Sharif University of Technology paved the way for advanced manufacturing systems. His unique approach involves the creation of a digital twin, a concept that combines a physical three-axis milling machine with its virtual counterpart using the Unity game engine. This innovative combination visualizes the manufacturing process in real time and brings unprecedented accuracy in force analysis through AI-based updates.

The promise of such a system is immense. By integrating this technology with augmented reality, Forootan foresees a future where operators can navigate seamlessly between the virtual and physical realms, amplifying their understanding of manufacturing operations and improving precision control.

His innovation doesn’t stop at his research. As a senior engineer, Forootan spearheaded significant projects in the realm of locomotive component fabrication. A testament to his expertise is the successful completion of the BFC locomotive brake project, where he managed the intricate design and fabrication processes, demonstrating his mastery in milling, forming, welding, grinding, casting, and forging. 

Furthering his commitment to safety and reliability, Forootan designed a sophisticated test bench to validate the safety of the fabricated BFC brake. By simulating real-world operating conditions, this state-of-the-art test bench ensured the brake assembly’s performance and safety, underlining Forootan’s unwavering dedication to quality.

In addition to these professional achievements, Forootan’s academic accomplishments are impressive and recognized in multiple national exams and Olympiads. His proactive involvement in the Entrepreneurship and Innovation Bootcamp at Berkeley University in 2023 further accentuates his continuous pursuit of knowledge and innovation. These achievements and his outstanding undergraduate record at the University of Kashan speak volumes about his dedication to pushing boundaries in the engineering field.

However, beyond his engineering prowess, Forootan is a visionary. Aspiring to be a chief technology officer of a prominent company, he has a keen eye on emerging technologies like Vision Pro Spatial Computing, which promises to revolutionize the industry through augmented reality. His vision of the future extends beyond robotics and manufacturing. He is particularly passionate about electric vehicles (EVs), predicting a shift in the automotive industry toward sustainable and energy-efficient technologies. Similarly, he envisions the development of smart cities that leverage data and connectivity for optimized traffic solutions, contributing to a sustainable and efficient urban environment.

Forootan is a true embodiment of dedication, continuous learning, and resilience. His unwavering persistence in the face of setbacks and his commitment to managing time effectively is inspiring and instructive. His story is a beacon for all aspiring engineers and innovators. With a keen eye on the future, he continues to forge ahead, driven by his passion for engineering and a steadfast belief in the power of innovation. His journey, filled with groundbreaking research, significant professional achievements, and inspiring insights, promises to drive the future of robotics, electric vehicles, and smart city solutions. Undeniably, the future of robotics and beyond seems brighter and more promising with dedicated and visionary professionals like Mahmoodreza Forootan at the helm.

In today’s rapidly evolving technological landscape, industrial robotics, particularly robotic arms, are experiencing a significant surge in adoption across diverse industries, workshops, and factories. This integration of robotic arms into various sectors brings forth immense benefits, such as heightened efficiency, cost-effectiveness, and precision in manufacturing processes. As artificial intelligence (AI) continues to make remarkable strides and the demand for robotic arms increases, a promising horizon of opportunities emerges.

Forootan possesses extensive expertise in robotic arms and electromechanical systems, complemented by valuable experience in AI and participation in the esteemed Berkeley program of Entrepreneurship. This unique skill set makes him an excellent candidate to explore the intersection of technology, theory, and marketing in this domain. He can effectively forecast future demands and identify opportunities for AI’s transformative impact on robotics.

To predict the future effects of AI on robotic arm technology, Forootan has gathered a brief review of successful startups in this field. These companies are at the forefront of incorporating AI into their robotic arm solutions, leading to groundbreaking developments:

Covariant

Covariant is at the forefront of AI-driven robotic arms for warehouse automation. With a focus on developing intelligent machines that can adapt to dynamic environments, Covariant is revolutionizing logistics and supply chain operations. Covariant’s AI-driven robotic arms possess advanced object recognition capabilities, allowing them to identify and grasp items of varying shapes, sizes, and textures. The AI algorithms enable the robotic arms to learn from each interaction, continuously improving their grasping and manipulation techniques.

Soft Robotics Inc.

Soft Robotics Inc. is pioneering the development of soft gripping technology that enables robotic arms to handle delicate and irregularly shaped objects with precision. Their AI-enhanced grippers provide versatile and dexterous grasping capabilities, expanding the range of tasks that robotic arms can perform.

Neurala

Neurala specializes in deep-learning vision solutions for robotic arms, enabling real-time object recognition, tracking, and manipulation. Their AI algorithms enhance robotic arm capabilities by providing accurate and robust perception in dynamic and unstructured environments.

RightHand Robotics

RightHand Robotics offers intelligent robotic picking solutions for e-commerce fulfillment centers. Their AI-powered robotic arms integrate computer vision, machine learning, and grasping technologies to automate order fulfillment, enabling faster and more accurate item picking.

Ambi Robotics

Ambi Robotics leverages AI and deep learning to develop robotic systems that excel in order fulfillment tasks. Their AI-powered robotic arms have advanced perception and grasping capabilities, allowing them to handle a wide range of products accurately and efficiently.

Realtime Robotics

Realtime Robotics focuses on developing collision-free motion planning solutions for robotic arms. Their AI-based software enables real-time path planning, allowing robotic arms to operate safely and efficiently in dynamic and unstructured environments, enhancing human-robot collaboration.

Moley

Moley’s robotic arms bring automation to the kitchen by executing complex cooking tasks. Equipped with AI algorithms, these robotic arms mimic human-like movements and dexterity, enabling precise and automated food preparation.

Machina Labs

Machina Labs AI is a company that uses AI and robotics to transform manufacturing plants. They can create large, complex sheet metal parts with their Robotic Craftsman platform, combining 7-axis robots, autonomous sheet loading and fixturing, advanced AI process models, and closed-loop controls.

Flexiv

Flexiv designs and manufactures robotic arms that employ AI and adaptive force control to provide high-precision, flexible, and safe manipulation capabilities. Their advanced robotic arms find applications in various industries, including manufacturing, healthcare, and research.

Agile-Robots

Agile-Robots focuses on developing collaborative robotic arms that can work alongside humans in industrial settings. Their AI-powered robotic arms offer advanced safety features and intuitive programming interfaces, enabling efficient and safe collaboration between humans and machines.

Ready Robotics

Ready Robotics offers user-friendly platforms that simplify the integration of robotic arms into manufacturing processes. Their AI-enabled systems streamline programming and enable intuitive control, making robotic automation accessible to a wider range of industries and users.

Robotiq

Robotiq specializes in developing grippers and end-of-arm tooling for robotic arms in industrial automation. Their AI-enhanced grippers provide adaptive and versatile grasping capabilities, enhancing the productivity and flexibility of robotic systems.

Rethink Robotics

Rethink Robotics develops collaborative robots, or cobots, that can safely work alongside humans in manufacturing environments. Their AI-powered cobots enable intuitive and flexible programming, enhancing productivity and efficiency in various manufacturing tasks.

Vention

Vention offers AI-driven modular systems for the rapid deployment of robotic arms. Their innovative platform allows users to design, simulate, and deploy customized robotic workcells quickly, enabling faster integration of robotic arms into various industries.

Cobot Intel

Cobot Intel specializes in developing collaborative robots for industrial applications. Their AI-enabled cobots feature advanced sensing, control, and safety capabilities, allowing them to perform a wide range of tasks collaboratively with human operators.

The review of these startups underscores the rising opportunities created by AI advancements in robotic arm technology. The progress in AI has significantly improved the vision of robotic arms, leading to the incorporation of adaptive grasping technologies. Moreover, AI has facilitated communication between robotic arms and humans, and it has also influenced the movement of robotic arms, allowing them to mimic humans or adapt their movements in sensitive situations.

In conclusion, the future of robotic arms will be greatly influenced by the continuous advancements in AI technology, particularly in the areas of vision, communication, grasping, and adaptive movements.

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Written By

Jon Stojan is a professional writer based in Wisconsin. He guides editorial teams consisting of writers across the US to help them become more skilled and diverse writers. In his free time he enjoys spending time with his wife and children.

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