Jama Connect
Jama Connect® is an innovative platform for product development that establishes Living Requirements™. It weaves together disparate activities related to testing and risk management, ensuring comprehensive compliance, mitigating potential risks, enhancing processes, and maintaining adherence to regulations. Organizations involved in developing intricate products, systems, and software can now effectively outline, synchronize, and implement their requirements. This streamlined approach significantly decreases the time and resources needed to demonstrate compliance and minimizes the need for rework. By selecting a user-friendly, adaptable solution accompanied by supportive services focused on fostering adoption, companies can confidently pave the way to their success. The platform’s design emphasizes collaboration, ensuring that all stakeholders are aligned throughout the product development lifecycle.
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ThinkAutomation
Develop automation solutions tailored to your business needs with ThinkAutomation, which offers a versatile studio for crafting any required automated workflow. This platform provides the freedom to create without limitations on volume and eliminates the need to pay for each individual process, license, or robotic implementation. With such flexibility, you can streamline operations and enhance efficiency seamlessly.
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RoboCell
RoboCell combines the robotic control software from ScorBase with an interactive 3D solid modeling simulation, offering a precise depiction of the dimensions and capabilities of Intelitek robotic equipment. This integration allows students to learn about position teaching, program development, and troubleshooting of robotic systems in an offline setting, all before applying their knowledge in a real work cell environment. Users can navigate through numerous simulated work cells, which proves invaluable when physical setups are unavailable in the lab. Furthermore, advanced users can create custom 3D objects and import them into RoboCell, facilitating their integration into virtual work environments. The software operates in three distinct modes: Online mode for real-time control of robotic cells, Simulation mode for overseeing the virtual robotic cell through a 3D interface, and Offline mode for verifying ScorBase programs. Key features include dynamic 3D simulation that monitors both robots and devices, the capability to simulate robot movements and gripper actions, and support for additional peripheral components, including conveyor belts, XY tables, and rotary tables. Overall, RoboCell significantly enhances educational experiences while also improving design and testing processes in the field of robotics. By bridging the gap between theoretical knowledge and practical application, it ensures that students are better prepared for real-world challenges in robotic technology.
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MotoSim
Yaskawa Motoman's MotoSim EG-VRC (Enhanced Graphics Virtual Robot Controller) is a sophisticated application tailored for offline programming and the three-dimensional simulation of complex robotic systems. This software enables users to design and visualize robotic work cells in a virtual setting, thus removing the need for actual robots during the initial development phases. Key features include the ability to optimize robot and equipment placement, model reach capabilities accurately, compute cycle times precisely, generate paths automatically, identify potential collisions, configure systems, modify condition files, and establish Functional Safety Units (FSU). Additionally, the platform comes with a virtual robot controller that boasts a programming pendant interface closely resembling that of the physical controller, which facilitates a seamless transition from simulated environments to real-world applications. Moreover, MotoSim EG-VRC offers users an extensive library of models, allowing them to download a variety of third-party models that enhance their simulation experiences. This adaptability not only improves the programming process but also significantly speeds up the overall development timeline by enabling thorough testing prior to actual implementation. By leveraging such advanced capabilities, engineers can streamline their workflows and reduce the likelihood of errors in the final deployment of robotic systems.
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