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Low-code/no-code platforms enable IoT in manufacturing

Smart factory initiatives that integrate advanced digital technology such as artificial Intelligence and machine learning into the manufacturing environment offer a vast array of opportunities to manufacturers for developing novel business model and generating additional revenue streams.

Data indicates that manufacturers struggle to turn smart factory projects into reality. Internet of Things (IoT) could provide a possible solution.

IoT-equipped devices with embedded sensors enable data collection and exchange. This allows manufacturers to optimize processes and minimize downtime. IoT offers many advantages, but integration with existing systems, as well as the integration of these devices, can be a difficult task.

IoT professionals play a vital role in ensuring the safety and reliability of systems as well as developing solutions to facilitate seamless integration between IoT devices and legacy systems. By overcoming these obstacles, manufacturers can harness IoT’s potential to achieve digital transformation and maintain their competitive edge on the market.

Low-Code strategy for IoT Adoption

Businesses can use a low-code/no code development strategy to overcome challenges associated with adopting IoT networks and devices.

Low-code solutions allow organizations to develop custom applications for IoT applications, manage data effectively and align applications according to the needs of different stakeholders. Low-code methodologies can be used to help companies fully leverage IoT in the manufacturing industry.

Low-code technology allows team members construct solutions fairly easily, without the need for extensive knowledge about coding languages, development principles and best practices. Developers can use a drag and drop framework to implement solutions quickly, often within hours.

Citizens can now create their own solutions using low-code platforms without having to rely on IT. This has a huge benefit, especially when you consider that 75% employers believe they don’t have the time or resources for IT. finding tech talent Is their primary concern?

Low-code allows IT and business to work together to create customized solutions, while meeting IT requirements quickly.

Low-code platforms, in particular, allow employees on the ground to develop applications that are tailored to their specific needs and not the priorities of C-suites or IT departments. Low-code allows companies to embrace the concept. shadow IT They can do so without significant risk.

Low-code in industrial manufacturing: Benefits

During the pandemic low-code software solutions gained in popularity, as businesses were forced to respond more quickly to changing market conditions. While some predicted that low-code adoption would decline as operations resumed, it is expected to increase. According to Gartner In 2023, the market for low-code is expected grow by 20%.

Combining a low code development strategy with IoT Infrastructure offers many benefits to developers, IT engineers and business stakeholders.

Low-Code solutions simplify deployment

Low-code platforms allow organizations to deploy apps with one click. Low-code platforms are also portable and can run in cloud-native environment. This allows for teams to deploy in any environment – on-premises as well as in the public clouds, hybrid architectures or at the edge.

Accelerating Application Development and Updates

Without the need for professional developers, manufacturing businesses can quickly create IoT apps. Pre-built integrations allow for faster updates and development, making these solutions cost-effective.

Integrating IoT with low-code platforms enhances agility in developing smart solutions, allowing rapid prototyping and deployment. Coupled with DevOps practices, this synergy facilitates seamless integration and continuous delivery pipelines, empowering organizations to efficiently manage their IoT projects, and potentially leveraging DevOps outsourcing services for enhanced scalability and expertise.

Reduce the burden on developers

The time to develop an app is reduced when the complexity of the application is reduced. This allows businesses to get more done with fewer programmers. This efficiency is especially important in light of the projected global deficit of 85 million development engineers.

AI-assisted Development Workflows also allow developers to create microflows for specific use cases. This allows businesses to develop apps faster and with less resource.

Future-Proofing IoT applications

Platforms that allow low-code development enable businesses to easily create components of applications for reuse in different applications. This reusability function streamlines development by reducing the requirement for developers to create elements from scratch.

Businesses can modify and reuse components to maintain compatibility with existing systems as IoT devices evolve and applications develop.

Faster, Efficient and Better-Integrated Development

Low-code development allows all stakeholders to build the tools needed to make the most of their IoT data. This approach empowers citizens to develop solutions quickly without waiting on IT.

Low-code development platforms enable development and deployment cycles that are fast, smooth, and integrate seamlessly into existing workflows and toolsets, such as the Continuous Integration/Continuous Delivery (CI/CD) workflows that many businesses use.

Gartner predicts By 2024, 80 percent of apps will be created by non-IT professionals. This highlights the importance of no-code and low-code solutions that allow citizen developers to develop solutions without having to rely solely on IT professionals.

Selecting the Right Platform for Low-Code/No code

Manufacturers who want to improve their development workflows and boost operational efficiency in an increasingly connected industry landscape must choose the right low-code/nocode platform.

This choice is based on a thorough understanding of a platform’s capabilities. The platform must be able to meet the unique needs and goals of an organization while also allowing for seamless integration into the IoT eco-system. The following are key factors to consider:

  • Integrating multiple systems A platform that is suitable should integrate seamlessly with different systems and devices. This will allow manufacturers to take advantage of existing infrastructure, and ensure IoT devices are working harmoniously. This capability allows efficient data exchange and collaborative work across the IoT eco-system, maximising the return on the existing infrastructure.
  • Security: It is important that the platform chosen has robust security features including encryption of data, secure communication protocols and access controls to maintain the security of the IoT ecosystem.
  • Flexibility and customization Platforms should provide a comprehensive environment for development, with visual editors, prebuilt components and custom code support, so that manufacturers can tailor solutions and applications to their processes and requirements.
  • Vendor Support and Community: It is important to have a vendor support system that includes regular updates, thorough documentation and dedicated customer service for a seamless IoT integration. A developer community that is active can provide valuable insight, shared libraries and best practices to ensure successful deployment.

The conclusion of the article is:

Platforms with low-code or no-code will play a major role in the future of manufacturing as they promote digital transformation and seamless IoT integration.

These platforms streamline development processes, reducing the need for specialized knowledge and allowing manufacturers to quickly adapt to changing market needs and technological advances.

Manufacturers will need to adopt low-code/no code platforms in order to stay competitive and innovative. This will also help them solidify their position on the manufacturing landscape.