02304nas a2200217   4500000000100000000000100001008004100002260001200043653002300055653001600078653002500094653001900119100002700138700001600165245006300181856009800244300001000342490000600352520171400358022001402072       2017                            d  c03/201710aInternet of things10aSmartCities10aPredictive Modelling10aConnected Cars1 aVijender Kumar Solanki1 aRohit Dhall00aAn IoT Based Predictive Connected Car Maintenance Approach  uhttp://www.ijimai.org/journal/sites/default/files/files/2016/08/ijimai20174_3_3_pdf_12469.pdf  a16-220 v43 aInternet of Things (IoT) is fast emerging and becoming an almost basic necessity in general life. The concepts of using technology in our daily life is not new, but with the advancements in technology, the impact of technology in daily activities of a person can be seen in almost all the aspects of life. Today, all aspects of our daily life, be it health of a person, his location, movement, etc. can be monitored and analyzed using information captured from various connected devices. This paper discusses one such use case, which can be implemented by the automobile industry, using technological advancements in the areas of IoT and Analytics. ‘Connected Car’ is a terminology, often associated with cars and other passenger vehicles, which are capable of internet connectivity and sharing of various kinds of data with backend applications. The data being shared can be about the location and speed of the car, status of various parts/lubricants of the car, and if the car needs urgent service or not. Once data are transmitted to the backend services, various workflows can be created to take necessary actions, e.g. scheduling a service with the car service provider, or if large numbers of care are in the same location, then the traffic management system can take necessary action. ’Connected cars’ can also communicate with each other, and can send alerts to each other in certain scenarios like possible crash etc. This paper talks about how the concept of ‘connected cars’ can be used to perform ‘predictive car maintenance’. It also discusses how certain technology components, i.e., Eclipse Mosquito and Eclipse Paho can be used to implement a predictive connected car use case.  a1989-1660