Our Services
Simulating your vision with precision for past 20 years.
Sustainability & Decarbonization
In today’s world, where rapid urbanization and diverse climatic conditions as an effect of climate change phenomenon pose unique challenges, we apply our expertise to create solutions tailored to local needs and resilience. Our expertise extends beyond current technologies; we continually explore future-forward solutions like sustainable design driven policies coupled with smart IoT and digital twinning approach to drive decarbonization further. We also incorporate climate adaptation strategies, ensuring that buildings are prepared for future environmental challenges.
At the heart of our approach is a commitment to sustainability and decarbonization in the building sector. Through advanced simulations and cutting-edge design tools supporting model-based design, we assist conceptualize buildings that are not only resource efficient but also minimize environmental impact. Utilizing industry-leading software like EnergyPlus, GenOpt, and Modelica libraries as well as other open-source technologies, we provide comprehensive analysis and optimizations for code compliance, energy targeting and investments as well as thermal comfort optimization, ensuring that the built environment design meets and exceeds global standards for sustainability.
Transportation Infrastructure
As blood is the transporter of various nutrients in the body to keep it alive and functioning, sustainable transportation infrastructure that consist of air, rail, road and marine places a pivotal role in keeping the world moving and generate direct and indirect economic opportunities. Intracity, intercity, across countries and across continents movement is lifeline for economic growth and prosperity.
Governments across the world are focusing on improving the transportation infrastructure in their own ways based on the resources that are available at their disposal. This has generated significant opportunities for people who understand fire safety, public behavior in smoke emergency such as public egress, evacuation and automated emergency avoidance system through smart controls and sensors.
In a public mass transit hub like an airport, metro station, railway stations or tunnels there can be number of scenarios. We develop an early strategy of breaking the chain of events for those emergencies well in advance by providing smart infrastructure such as ventilation system, planned egress routes, fire suppression systems and a smart automated responses that can pre-empt and guide the people to safety.
Data Analytics, IOT & Software
In the evolving landscape of sustainability, the integration of Data Analytics, IoT, and advanced software systems has become pivotal in achieving high performance buildings and efficient energy management. By leveraging real-time data from IoT devices and smart sensors, we design solutions for monitoring and optimization of resource consumption such as energy, water and waste as well as enhancing operational efficiency and reducing carbon footprint. Advanced software tools allow us to simulate, predict, and fine-tune building performance, delivering tailored solutions for sustainability.
Digital Twins — virtual replicas of physical infrastructure—enable real-time monitoring and data analytics at component level, building level, district level as well as city level, allowing us to evaluate and develop optimized approaches for the implementation of sustainability strategies. Furthermore, Large Language Models (LLMs) are revolutionizing decision-making by providing advanced natural language processing capabilities, making complex sustainability data more accessible and actionable. These AI-driven technologies, tailored/trained in energy efficiency domain can act as an expert in energy management. This would empower the stakeholders to make informed decisions in reducing carbon footprints and optimizing resource usage.
Disaster Mitigation & Climate Resilience
Recent effect of climate change is frequently evident around us in terms of cloud burst, river line flooding, landslides, sea level rise, tsunami and dam breaks which result in loss of infrastructure and lives. This poses a severe concern for Governments and Private developers to design resilient infrastructure. With the advent of computers and subsequent computing power, it has become possible to perform complex and sequential calculations that could ascertain fundamental physical balances. This enables us to formulate problems and corresponding solutions that exist in nature.
Per se, water flow on the surface can be modelled by 2-dimensional computational fluid dynamics codes. Application of such code to disaster mitigation emanating from flooding requires formulating terrain geography through LIDAR surveys and providing soil characteristics as well as relevant data with respect to rain or flows in a nearby river line.
An informed model of these aspects can tell us the potential impact of incessant rain, landslides, dam break and flooding related disaster. We develop these simulations to also understand process water use or to optimise or plan safety protocols for private entities making large developments as well as local Government infrastructures such as municipalities.
General Purpose Simulations & Digital Twin
Process digitisation through the principle of fundamental sciences can create a digital twin. As we are moving towards more powerful computation age, enormous computing power are miniaturised in small devices. Henceforth, there is a significant scope of improvement in the way we have designed things, and we have operated it previously.
A building that requires an energy audit may or may not have all the measurements available that can give an auditor the visibility to take various decisions. A digital twin of the building that can mimic its thermal (heat and mass transfer) characteristics available in a dynamic simulation environment. This gives rise to a perspective of hidden aspect of the building’s operational response that is otherwise invisible to even expert eyes. This also helps in understanding the system response and taking informed decisions in eventual retrofitting. Not only in building, but digital twining approach can be employed to anything that is governed by fundamental laws of nature. These models can be connected and calibrated to actual system and its operations can be improvised. We at GSPL use software like Modelica, Energy plus and Scientific Python for development and deployment of such services.
