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Robotic Automation Systems offers over 20 years of experience as a leader and innovator integrating automation and robotics for the plastics industry. We work with you from concept to completion, providing a fully functional, state of the art, turnkey solution and the edge over your competition.

Besides our knowledge and experience in industrial automation systems for the plastics industry, Robotic Automation Systems has a reputation of listening to our client’s needs and building custom automation equipment that fits those needs, on time and on budget. Robotic Automation Systems will provide the robots, material handling automation and that your project requires, along with the training and ongoing support you need. Our talent and focus is providing the most efficient and effective systems for plastic injection molding automation, including, and, parts handling, packaging, palletizing, degating, routing, trimming, sorting, stacking, verification and all other associated on-line and off-line operations. Robotic Automation Systems integrates a wide range of types and manufacturers of enabling us to help select the best robot for your automation needs, including: 3-Axis, 6-Axis, SCARA, Side Entry and Servo Picker robots, from manufacturers including HAHN Automation, WEMO, ABB Robotics, Epson Robots and Fanuc Robotics. Robotic Automation Systems solutions are custom engineered, built and fully integrated into your application and process - from complete turnkey automation systems to specific robotic automation application needs and tooling. Entry Level to Complex Projects.

Horizontal & Vertical Plastic Injection Molding Machines (15 - 6,000 tons). Robust, Custom Tooling. Intuitive, Intelligent Human Machine Interface (HMI) Use Robotic Automation Systems for:.

Increased productivity. Accurate and repeatable placement. Cycle consistency. Mold protection. Improved part quality. Added versatility. Less scrap To learn more about Robotic Automation Systems, read or to start a conversation of how we might help you with your automation needs.

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The UT Arlington Research Institute (UTARI) is a research and development unit of The University of Texas at Arlington specializing in applying cutting-edge technologies to real-world engineering problems. UTARI's vision is to become a premier research institute, transforming ideas into realities through unbounded research and innovative development that sustain business and industry, advance humankind, and benefit our global society. Our collaborative endeavors reflect a commitment to excellence, integrity, and respect for all, bringing economic growth and fulfillment to our families, business partners, university, and community. UAS Support to Transportation Operations, as a part of a contract, will examine the use of UAS in surveying traffic corridors. In this effort, research covers UAS use for traffic congestion, road repairs, accident scenes and other uses. Smart Homes UTARI collaborated with and Operation Finally Home to provide technology and research integration of automated and robotic devices in home settings.

Any other suggestions for printing a booklet from Word would be appreciated. And these apps definitely are the easiest way to create a booklet short of starting in an app that has imposition features already build-in like Adobe InDesign. Conchita wrote: Then when you get around to it, before you move everything into pages (unless you're planning to switch from word to pages), you might also want to read this: which is for Word 2004 The booklet creation programs described in the linked article (and Conchita's first reply) are completely source agnostic as they hook into the print process (or use PDF files generated by the source application). You can use them from any app, there is nothing Word 2004-specific in them.

In 2014, we supported the development of two (2) Smart Homes to benefit wounded warriors. Read more about the HEB Project. Rapid and Agile Software Development for the DARPA Disaster Robotics Challenge Funded through, UTARI and worked on the development of a robotic platform to mitigate the effects of natural or man-made disasters, such as the Fukushima Power Plant or the Gulf of Mexico oil spill. In this challenge, human-sized robots will operate in disaster areas and complete challenging tasks such as clearing obstacles, riving vehicles, operating human-made tools, climbing ladders, and exchanging faulty machine parts. Multimode Assembly and Packaging Systems (MAPS) MAPS offered customized rapid protoyping and on-demand pilot production solutions for new and existing products through unique sets of custom integrated hardware along with sophisticated software and advanced automation techniques that enable cost and time efficient productization. Electro-hydro-dynamic (EHD) Printing EHD was used for both front and back-end manufacturing processes. The capability as a mask-less lithography tool is highly attractive for protyotyping and low volume manufacturing as it allows faster and cheaper device iteration cycles.

EHD printing also enables the creation of features an order of magnitude smaller than the nozzle size. This makes this technique is an excellent candidate for low cost front-end device fabrication (e.g., OLED, TFT, gas sensors, etc.) as well as back-end packaging (e.g., epoxy dispensing and interconnect printing). Coordinated Control of Humanoid Robots for Diagnosis and Tratment of Autism Supported by the and grant, the team worked on the development of a Human-Robot Interaction System for Early Diagnosis and Treatment of Childhood Autism Spectrum Disorders (ASD). The research focused on treating cognitive impairments in children suffering from ASD with the use of the robot Zeno, a robotic platform developed.

Cognitive Enhancement Using Soft, Non-Grasp Manipulation in a Smart Hospital Bed In collaboration with the Mechanical Engineering departments at and, we worked on developing a Smart-Bed technology that will be used for the prevention and treatment of bed sores and pressure ulcers. This was to be accomplished by development of a flexible sensor sheet, robotic manipluators for distributed pressure nodes, and design tools to control the bed.

Applied Robotics for Installation Base Operations (ARIBO) Roadmap Applied Robotics for Installation Base Operations (ARIBO)Our research team is developing the Roadmap for Applied Robotics for Installation Base Operations (ARIBO). The roadmap document will be roughly patterned after the FAA UAS Roadmap and will be tailored to the use of infrastructure and autonomous vehicles for carrying out transportation and transport needs and other tasks on federal and non-federal installations. Funding Agency: ICC Golf ball Sorting This project uses machine vision to sort used golf balls according to brand and model. As golf balls are conveyed, machine vision and associated algorithms identify the ball markings in order to properly bin the balls as they move past the sensors. Funding Agency: Arm Torque Sensor Prototype In this effort, a prototype arm torque sensor is being developed that will be used to quantify shoulder stiffness.

This is a collaborative effort with the University of North Texas Health Science Center and is led by (UNT HSC). Funding Agency: UGV / UAV Summer Project This project explores the cooperative behaviors between a UAS and UGV in support of UGV navigation. Currently the work is being targeted to the UTA Airship and a small UGV but has the future potential to be re-targeted to other UAV systems. The project includes involvement from UTA's.