Research and development are some of the essential startup phases of an IoT Project. With the help of R & D, we can optimize total expenditure, reduce the risks as technological development and scientific advancement have always gone together.

We are now in an age of continuous scientific discovery, from both the efficiency of scientists in the modern age as well as our aspiration to expand our knowledge about the natural world. Every day, scientists are going a little bit closer to successfully healing diseases with gene editing and improving predictive medicine.
IoT will help to automate processes and unseal crucial data, which will be transformative for science-based industries.

With the implementation of the IoT into the laboratory environment to include a new layer of efficiency to the way, research and development are managed to achieving the smart lab. Data accumulation via IoT-enabled smart labs could mitigate human error in research and development.

Current System Concerns

Scientific growth is halted by various barriers that surviving in the laboratory. Hurdles come in terms of human errors, ineffectively managed data, absence of communication between devices and researchers which will impacts negatively in the entire process.

Currently, scientists face the regular task of manually recording data output from the machines, compliance issues, additional re-work and bad credibility in the market. Other concerns that frequently arise are associated with data loss, which can happen when scientists are not capable to decode handwritten notes or information.

These concerns every laboratory faces are maintained by the absence of connectivity in the laboratory, both between equipment as well as researchers and nothing solves connectivity issues better than an IoT-enabling system also improving survey from regulators and delays in time to market.

Overcoming concerns with IoT

Smart Lab optimizes the IoT technology for the severe requirements of science-based environments and changes the way we collect, interpret and utilize research data. The basic concept of the Smart Lab is connectivity — either utilizing devices with intrinsic networking abilities or including connected abilities to existing legacy devices.

With the help of this, machine output can simply surge into a digital format which will save the scientist valuable time and effort. An IoT enabled laboratory helps devices to be connected to the cloud or local server that can be managed externally and acquired from anywhere with an internet connection.

IoT can take various forms in the laboratory and the most well known is in the form of automation. But this solution is a little bit expensive hence it is applied in a few successful Industry laboratories. Other method of combining IoT into the laboratory is with the laboratory implementation system which associates existing machines in the laboratory to the internet and not only leverages the capability to control and analyze existing devices but also they have the capability to handle automated devices likewise pipetting robots.

This IoT solution ( simply adds a layer of internet connectivity which makes it more cost-effective and reliable.

The requirement has grown with the shift towards digital solutions and significance on greater access to the research data. The inclusion of IoT in a lab has been considerably increased in demands specifically in the industry of R & D. It is an essential component required to achieve the smart lab, the future of laboratories.

Smart Lab:

Unlike smart homes and cities, the smart lab contains connecting laboratory devices and machines to the internet. With the added connection, a researcher will be capable to handle all laboratory devices externally enabling them to execute an experiment faster and with significant precision.

This system also allows easier data documentation with machine learning and AI technology to efficient experiment procedures. In this way, it will create a truly smart, productive environment where machines can forecast experiment outcomes and generate experiment thesis.

The Smart Lab will speed up discovery and enhance operational efficiency; minimizing time to market for crucial therapies and increasing the ROI on R&D spend. Just as data modified manufacturing practices a few years ago the smart lab becomes a moving stone to transforming research. After all, if we can easily monitor the home remotely then why not lab?

The Laboratory of the Future

Looking forwards, the digital transformation will help people in the lab to track the manual steps performed and generate protocols automatically. With significance on precision, efficiency and compliance could significantly improve with the increased productivity brought by IoT enabled devices. Automation and IoT systems can potentially change processes within pharmaceutical manufacturing solutions, supporting to recognize major performance improvement.

There are other digital transformation solutions likewise the laboratory inventory management or the electronic lab notebook that enables a central platform for research data storage and documentation. In these ways, IoT will reshape the way research and development are handled and managed.

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Author's Bio: 

hIOTron is basically an End-to-End IoT Service and solutions provider company.