Innovations in Robots, 3D Printing, and Autonomous Agricultural Solutions

Innovations in Robots, 3D Printing, and Autonomous Agricultural Solutions

RELEASE DATE
05-Jul-2019
REGION
Global
Research Code: D718-00-79-00-00
SKU: CI00638-GL-TA_23521
$950.00
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SKU
CI00638-GL-TA_23521
$950.00
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Description

This Advanced Manufacturing Technology TechVision Opportunity Engine (TOE) profiles advancements in robots, 3D printing, and autonomous solutions for agriculture. Innovation profiled in this TOE include self-navigating telepresence robots, robots for small part material handling, and a development kit that makes human-robot collaborations safer. Metal powder bed fusion 3D printing, 3D printing of aerospace parts and aero engine components, and fast and low-cost 3D metal printing are also profiled. In addition, an autonomous vegetable weeding robot, an autonomous strawberry harvester, and an autonomous precise weed control solution are also in focus in this TOE.

The Advanced Manufacturing Technology TOE covers global innovations and developments related to manufacturing and industrial automation on a weekly basis. Innovations are focused toward improving product traceability, energy efficiency and reducing environmental footprints, integrating product design and manufacturing aspects for reducing time-to-market. Research focus areas include rapid prototyping (additive manufacturing), lightweighting (multimaterial joining, plastics and metals manufacturing, carbon fiber-based composite manufacturing), smart robotics (agile robots, consumer robots, swarm robotics, cobots), monitoring and control (wireless control networks, human machine interface), and simulation and modeling (design and simulation software).

The Advanced Manufacturing and Automation (AMA) Cluster covers technologies that enable clean, lean and flexible manufacturing and industrial automation. Technologies such as three-dimensional (3D) and four-dimensional (4D) printing, wireless sensors and networks, information and communication technology, multimaterial joining, composites manufacturing, digital manufacturing, micro- and nano-manufacturing, lasers, advanced software, and printing techniques, are covered as part of this cluster. The technologies covered here impact a wide range of industries, such as the impact semiconductor, automotive and transportation, aerospace and defense, industrial, healthcare, logistics, and electronics industries.

Keywords: Telepresence robots, collaborative robots, metal 3D printing, aerospace parts, aero engine components, 3D metal printing, autonomous vegetable weeding robot, strawberry harvester, weed control

Table of Contents

Recent Developments in Advanced Manufacturing Technologies

  • Self-navigating Telepresence Robots
  • Impact on Sectors
  • Robotics for Small Part Material Handling
  • Impact on Sectors
  • 3D Printing of Aero Engine Components
  • Impact on Sectors
  • Metal Powder Bed Fusion 3D Printing
  • Impact on Sectors
  • Development Kit Makes Human-robot Collaboration Safer
  • Impact on Sectors
  • 3D Metal Printing of Aerospace Parts
  • Impact on Sectors
  • Autonomous Vegetable Weeding Robot
  • Impact on Sectors
  • Fast and Low-cost 3D Metal Printing
  • Impact on Sectors
  • Large-scale Autonomous Strawberry Harvester
  • Impact on Sectors
  • Autonomous Precise Weed Control Solution
  • Impact on Sectors
  • Web-based CAE Software
  • Impact on Sectors
  • Electrical Discharge Machining Enables High Speed Machining at Nominal Costs
  • Impact on Sectors
  • Key Contacts
  • Key Contacts (continued)
  • Key Contacts (continued)
  • Your F&S Thought Leader
This Advanced Manufacturing Technology TechVision Opportunity Engine (TOE) profiles advancements in robots, 3D printing, and autonomous solutions for agriculture. Innovation profiled in this TOE include self-navigating telepresence robots, robots for small part material handling, and a development kit that makes human-robot collaborations safer. Metal powder bed fusion 3D printing, 3D printing of aerospace parts and aero engine components, and fast and low-cost 3D metal printing are also profiled. In addition, an autonomous vegetable weeding robot, an autonomous strawberry harvester, and an autonomous precise weed control solution are also in focus in this TOE. The Advanced Manufacturing Technology TOE covers global innovations and developments related to manufacturing and industrial automation on a weekly basis. Innovations are focused toward improving product traceability, energy efficiency and reducing environmental footprints, integrating product design and manufacturing aspects for reducing time-to-market. Research focus areas include rapid prototyping (additive manufacturing), lightweighting (multimaterial joining, plastics and metals manufacturing, carbon fiber-based composite manufacturing), smart robotics (agile robots, consumer robots, swarm robotics, cobots), monitoring and control (wireless control networks, human machine interface), and simulation and modeling (design and simulation software). The Advanced Manufacturing and Automation (AMA) Cluster covers technologies that enable clean, lean and flexible manufacturing and industrial automation. Technologies such as three-dimensional (3D) and four-dimensional (4D) printing, wireless sensors and networks, information and communication technology, multimaterial joining, composites manufacturing, digital manufacturing, micro- and nano-manufacturing, lasers, advanced software, and printing techniques, are covered as part of this cluster. The technologies covered here impact a wide range of industries, such as the impact semiconductor, automotive and transportation, aerospace and defense, industrial, healthcare, logistics, and electronics industries. Keywords: Telepresence robots, collaborative robots, metal 3D printing, aerospace parts, aero engine components, 3D metal printing, autonomous vegetable weeding robot, strawberry harvester, weed control
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Industries Cross Industries
WIP Number D718-00-79-00-00
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