The packaging robot market has been analyzed based on expected demand. Market data for each segment is based on demand volume and corresponding revenue. Prices considered for the calculation of revenue are average regional prices obtained through primary quotes from numerous regional manufacturers, suppliers, and distributors. All market numbers have been derived on the basis of demand for packaging robots in different applications in different regions. All existing key end-users have been considered and potential applications have been estimated on the basis of secondary sources and feedback by primary respondents.
The idea of bringing back manufacturing jobs to have people, not robots, perform specific tasks to complete production would have a significant impact on the current state of the worldwide economy. The day and age of having only people perform automated jobs is over and Donald J. Trump will fail to bring back what he promised. This transition won’t appear to be cost-effective, the required high-tech relevant training will be scarce, and the worldwide economy would have less incentive to globalize.
Robots are made in various shapes and sizes and generally their load carrying capacity depends up on their size and strength. An average human sized robot is capable of carrying a load of more than 100 pounds and can also move it very quickly at the rate of +/-0.006 inches. One of their major advantages is that they can work continuously for days and years at a stretch without developing any fault. Due to this persistent accuracy robots are fast becoming indispensable part of various industrial set-ups. Most often these robots are used for repetitive painting, welding and operations like picking up and placing products into the machines.
In order to provide the users of this report with comprehensive view of the market, we have included detailed competitiveness analysis and company players with unique selling propositions. The study encompasses market attractiveness analysis, by application, gripper type and end-use industries.
Since manufacturing products in the U.S. is more expensive due to salaries, compliance regulations and cost of materials, it has to be high quality. This is why knowledge of quality systems is important. The goal of a quality system is to ensure that the manufactured product has very little variance from the design standard. It is based on statistical process control (SPC). Six Sigma, ISO 9001 or TQM are different kinds of quality systems. Knowledge of any of these systems would make a job seeker stand out from the other job candidates.