 XIMA analytics is an IIT Madras incubated startup that is enhancing industrial automation using patented ultrasonic waveguide based sensor technology. Temperature is a critical parameter in any manufacturing industries which uses high temperature processes. Because this temperature is unable to be controlled in an accurate manner, they lose in their business as well as in the asset values. We at XIMA analytics have developed an ultrasonic waveguide based technology which can measure these temperatures in extreme environments and at high temperatures at multiple points and also using a multiple parameter configuration. Our sensors are typically applied in the oil and gas sectors also in the metal sectors especially with aluminum, steel and zinc. We are looking at more options with copper as well. We also work with glass abrasives and ceramic industries in which all these process industries use high temperature processes and corrosive environments to process their products over here. We are the world's first and only waveguide based ultrasound sensors for temperature, rheology and level measurements in process industries. For the first time we are able to measure molten metal temperature using a redistributed sensor configuration in a molten zinc bath in a steel industry. This technology can be applied to measure viscosity at very high temperatures. For example, the same material can be converted into a ceramic sensor to measure the viscosity of molten metals or even molten salts at temperatures above 1000 degrees Celsius. We have the capability to convert any structure that may be a wire, that may be a rod or it can be a thin wire of even 1 mm in diameter which can be used to measure multiple point temperature measurements. For the first time our user can actually attach these sensors on the external parts of a vessel or a structure to measure these parameters in a non-invasive manner. Let's get to know how UT maps work. Pipeline corrosion and related catastrophic failures can lead to a huge loss of money. The waveguide is inserted under the insulation to protect the surface of any pipeline likewise. This waveguide produces ultrasonic waves onto the surface at three different locations. UT maps alongside accumulates the ultrasonic data, computes and monitors the surface temperature generating a thermal map that a technician can read on the dashboard. In case of an insulation damage and humidity buildup, UT maps monitors sensitive and unusual variations in temperature at early stages which help in taking precautionary measures. In these high temperature processes, the typical sensors or the conventional sensors which are thermocouples, RTDs or the fire emitters are infrared grunts, they either use a single point type of measurements or they need a line of sight to do these measurements. But at high temperature processes, these thermocouples and RTDs tend to fail within weeks and months of operation. This is due to the presence of a joint or a weld at the location of measurements. But at XIMA, we have developed a sensor which does not have any junctions or a welds to do these measurements. We can measure at high temperatures for up to five years whereas the current sensors can fail within three or four months. Persistent mentoring support from IIT Madras helped them in their journey forward. The infrastructure, the mentorship and also the facilities provided by IIT Madras Incubation Cell has helped us evolve the product which has been a lab to market concept and we have been able to validate these sensors with the help of IIT Madras in different industries. And the infrastructure provided by IIT Madras Incubation Cell has played a key role in expanding our team and also expanding our business with different connects that have been established at this very site. For their great work, they have received several accolades. Our technology has been awarded the National Technology Award by the Department of Science and Technology, which has been an immense pleasure for us to be in the stance of different other innovators. We have also been selected as one of the top 19 most promising startups in Tamil Nadu and we have won multiple grants with the central government and the state governments in the past. The Aegis Graham Bell Award was awarded to us for developing a low-cost sensor for level measurements in different industrial vessels. Apps like these are proving to be the stepping stone in our country's overall development. This technology has been developed by Indians in IIT Madras indigenously. We are proud to say that the product is designed, developed and manufactured in India for global markets. We strongly believe that our products will be able to scale globally in different manufacturing sectors like the oil and gas, the metals, the manufacturing industries and refractories, ceramics and glasses as well.