Global Laboratory Automation Workcells Market Research Report 2017 to 2021 provides a unique tool for evaluating the market, highlighting opportunities, and supporting strategic and tactical decision-making. This report recognizes that in this rapidly-evolving and competitive environment, up-to-date marketing information is essential to monitor performance and make critical decisions for growth and profitability. It provides information on trends and developments, and focuses on markets and materials, capacities and technologies, and on the changing structure of the Laboratory Automation Workcells Market.
Companies Mentioned are Peak Analysis & Automation, Siemens, Beckman Coulter, Hudson Robotics, Inpeco, A&T, Roche, Thermo Fisher Scientific, Aim Lab Automation Technologies, SARSTEDT, Yaskawa Motoman, Transcriptic, Biosero, Let’s Go Robotics, and Festo.
The global Laboratory Automation Workcells market consists of different international, regional, and local vendors. The market competition is foreseen to grow higher with the rise in technological innovation and M&A activities in the future. Moreover, many local and regional vendors are offering specific application products for varied end-users. The new vendor entrants in the market are finding it hard to compete with the international vendors based on quality, reliability, and innovations in technology.
Major points covered in Global Laboratory Automation Workcells Market 2017 Research are:-
- What will the market size and the growth rate be in 2021?
- What are the key factors driving the global Laboratory Automation Workcells market?
- What are the key market trends impacting the growth of the global Laboratory Automation Workcells market?
- What are the challenges to market growth?
- Who are the key vendors in the global Laboratory Automation Workcells market?
- What are the market opportunities and threats faced by the vendors in the global Laboratory Automation Workcells market?
- Trending factors influencing the market shares of the Americas, APAC, and EMEA.
- What are the key outcomes of the five forces analysis of the global Laboratory Automation Workcells market?
This independent 76 page report guarantees you will remain better informed than your competition. With over 160 tables and figures examining the Laboratory Automation Workcells market, the report gives you a visual, one-stop breakdown of the leading products, submarkets and market leader’s market revenue forecasts as well as analysis to 2021.
Geographically, this report is segmented into several key Regions, with production, consumption, revenue (million USD), and market share and growth rate of Laboratory Automation Workcells in these regions, from 2012 to 2021 (forecast), covering Americas, APAC and EMEA.
MIR Announces the Publication of its Research Report – Global Laboratory Automation Workcells Market 2017-2021
MIR recognizes the following companies as the key players in the global laboratory automation workcells market: Peak Analysis & Automation, Siemens, Beckman Coulter, Hudson Robotics, Inpeco.
Other Prominent Vendors in the market are: A&T, Roche, Thermo Fisher Scientific, Aim Lab Automation Technologies, SARSTEDT, Yaskawa Motoman, Transcriptic, Biosero, Let’s Go Robotics, and Festo.
Commenting on the report, an analyst from MIR’s team said: “One trend in the market is increased use of cell-based assay. A cell-based assay is the phenomenon of a number of experiments taking place simultaneously based on the use of live cells. The experiments are primarily carried out to measure cell proliferation, motility, toxicity, production, and morphology of a specimen. At present, there is a significant use of the cell-based assay for drug discovery.”
According to the report, one driver in the market is need for environmental controls in laboratories. Laboratory automated workcells can maintain the environment of an incubator. Enclosing an entire process of an experiment in a closed chamber causes less harm to the environment and ends the testing with proper disposal of unused samples. Normally, the traditional way of testing in laboratories consume a significant amount of power to maintain the necessary temperature required for experiments. During an ongoing experiment, manual handling may cause injuries to the personnel even at minor negligence. At times unused samples or sample holders, which need to be disposed of, are left unattended.
Further, the report states that one challenge in the market is increasing need for ergonomic automated workcells. Ergonomics is the ability of equipment and the user to work seamlessly within the given surrounding. Working in an automated workstation may require less human involvement in process handling. However, even automated workstations require supervision and follow up for efficient functioning. Machines cannot run single handed; they need operators, supervisors, and testers to test status and working screen to change the process if required. If automated workstations are not ergonomic, the user may suffer from musculoskeletal disorders.
The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.
The report provides a basic overview of the Laboratory Automation Workcells industry including definitions, classifications, applications and industry chain structure. And development policies and plans are discussed as well as manufacturing processes and cost structures.
Then, the report focuses on global major leading industry players with information such as company profiles, product picture and specifications, sales, market share and contact information. What’s more, the Laboratory Automation Workcells industry development trends and marketing channels are analyzed.
The research includes historic data from 2012 to 2016 and forecasts until 2021 which makes the reports an invaluable resource for industry executives, marketing, sales and product managers, consultants, analysts, and other people looking for key industry data in readily accessible documents with clearly presented tables and graphs. The report will make detailed analysis mainly on above questions and in-depth research on the development environment, market size, development trend, operation situation and future development trend of Laboratory Automation Workcells on the basis of stating current situation of the industry in 2017 so as to make comprehensive organization and judgment on the competition situation and development trend of Laboratory Automation Workcells Market and assist manufacturers and investment organization to better grasp the development course of Laboratory Automation Workcells Market.