The Internet of Things in production and manufacturing environments, modernization of infrastructures, and integration of processes and physical objects with production systems
Integration of Industrial IoT Infrastructures: We develop solutions that facilitate the integration of production systems with physical devices for efficient real-time communication between both environments.
Modeling and Evaluation of Processes: We use advanced process modeling techniques to define, evaluate, and optimize operations in production environments, thus anticipating potential issues to accelerate the development cycle.
Development of Business Support Applications: Creation of customized applications that support specific business processes and incorporate physical elements and modeling techniques tailored to the specific needs of each domain, such as logistics, production, or resource control.
Autonomous Computing and Self-adaptation: Implementation of autonomous computing capabilities in developed services and software elements that allow real-time self-adaptation to changing production scenarios. This includes optimization, curation, protection, and automatic configuration.
Real-time Optimization: Integration of algorithms and methodologies that enable continuous real-time optimization of support processes for production, contributing to operational efficiency and data-driven decision-making.
Elimination of Intermediaries with IoT: Design of solutions that automate the flow of information between physical objects and information systems to eliminate unnecessary intermediaries and enable the emergence of new business models.
Efficient Management of Physical Resources: Development of applications that facilitate the management and control of physical resources and provide detailed information on location, traceability, and real-time status.
Technological Abstraction: Focus on developing solutions at a higher level of abstraction to avoid dealing with the specifics of underlying technologies and ensure system acceptance by users.
The development of this type of business support application involving physical elements can occur in any field since the modeling techniques have been designed to be adapted to the specific needs of each domain. Some activities include advanced manufacturing, smart logistics, quality management, waste control and sustainability, smart transportation, energy resource management, industrial automation and robotics, production customization, and Industry 4.0.
The benefits provided are improved operational efficiency, waste reduction and enhanced traceability, agility in development and continuous optimization, new business models and elimination of intermediaries, efficient management of physical resources, reduction of maintenance and management tasks, data-driven decision-making, and adaptability to various industrial sectors.