![]() The app is connected to the infotainment system via Bluetooth, and the user will also be notified with periodic maintenance checklist. Climate Control: It automatically maintains the desired temperature within the car’s cabin by continuously adjusting the air-con and heater settings.Average Fuel Economy: The average fuel consumed by the car per kilometer.Distance To Empty: The distance the SUV can travel before it runs out of fuel.Door Ajar Notification: The app will notify you if any of the car doors are open.Audio Control: The user can control the sound level, choose different tracks, and so on using the app.Fuel Statistics: Information regarding the fuel consumption and the amount of fuel left.Tyre Pressure Monitoring System: A tire-pressure monitoring system is an electronic system designed to monitor the air pressure inside the tires and this information will be displayed in the app in real time.The app can control the infotainment system of the SUV and is loaded with features such as: Mahindra is one of the few manufacturers in India who has a dedicated smart vehicle app. The BLUE SENSE app, initially developed for XUV500 W8 variant, was then released for rest of the SUVs of Mahindra. The BLUE SENSE app was designed by Mahindra’s Electronics team whose aim was to provide an enriched customer experience in the product and technology domains. The app was developed and released in 2012 for Mahindra’s global SUV, XUV500. ![]() One such technological advancement done by Mahindra & Mahindra is the BLUE SENSE app, the manufacturer’s first ever vehicle smart app. This rising demand also lead to the improvement in technologies used in the vehicles i.e., from a music system to an infotainment system to a mobile app which can control most of the settings in a vehicle. The trend is still continuing, and this increasing demand has compelled the manufacturers to step up the standards and luxuries of their vehicles. In the sense of process analytical technology (PAT), this important information is needed for bioprocesses to realize a knowledge base process control.The automobile industry saw one of its biggest booms in the SUV segment during the past five years. This sensor contributes to a higher process understanding by offering an online view on to the cell behavior. Information about limitation of the primary and secondary substrate is derived by the monitoring of the metabolic cell activity of bacteria and yeast cultivation processes. The OUR and qOUR online measurement of an animal cell batch cultivation is demonstrated, with maximum values of OUR = 2.5 mmol L.sup.-1 h.sup.-1 and a qOUR = 9.5 pmol cell.sup.-1 day.sup.-1. With the ISICOM, measurement of online and in situ measurement of the OUR is possible. The design of the ISICOM is focused on functionality, sterility, long-term stability, and response time behavior so the sensor can be used in bioprocesses. Together with the scattered light signal, the cell concentration is estimated and the qOUR is available online. This measuring principle, known as the dynamic method, determines the oxygen uptake rate (OUR). The decreasing oxygen concentration is recorded by the pO.sub.2 optode. Within a defined measuring interval, the chamber closes, and the oxygen supply for the cells is interrupted. Inside the measuring chamber, the pO.sub.2 and the scattered light is measured. The measuring principle of the ISICOM is based on a volume element enclosed into a small measuring chamber. This variable allows a qualitative judgement of metabolic cell activity. The ISICOM is an in situ combi-sensor that is measuring the cell-specific oxygen uptake rate (qOUR) online. ![]() ![]() These process variables are important, but they do not give any information about the metabolic activity of the cell. Abstract : In a biotechnological process, standard monitored process variables are pH, partial oxygen pressure (pO.sub.2), and temperature.
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