Kepler Communications Inc.
Anurag Nandi has a diverse work experience in the aerospace industry. Anurag is currently working at Kepler Communications Inc. as a Lead GNC Engineer. Prior to this, Anurag worked at Spire as a Lead Guidance Navigation and Control Engineer, where they conducted an analysis to determine the root cause of a residual dipole measured on-orbit and developed a ground testing framework for measuring the dipole on the ground. Anurag also led the effort to size and test magnetorquers to compensate for the dipole. Before Spire, they worked as a Guidance Navigation and Control Engineer, creating and implementing flight software for nanosatellites, maintaining a high fidelity simulation framework, and developing and implementing control modes according to ESA standards. Anurag also has experience at Axelspace Corporation, where they worked as an Attitude Determination and Control System Engineer, developing flight software for microsatellites and creating a simulation framework for hardware and software in the loop simulations. Additionally, they worked at Purdue University as a Deputy Project Manager, a Project Manager, and a Teaching Assistant, gaining experience in mission design, systems analysis, and teaching aerospace systems design. Anurag also worked as a Tutor for student athletes, providing academic support in various subjects.
Anurag Nandi completed their Bachelor of Science (BS) in Aerospace, Aeronautical, and Astronautical Engineering at Purdue University from 2009 to 2013. Anurag then pursued a Master of Science (MS) in the same field of study at Purdue University from 2013 to 2015. Following that, they enrolled in a Doctor of Philosophy (PhD) program at Purdue University from 2015 to 2016, where they were a PhD candidate.
Kepler Communications Inc.
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Kepler Communications is a satellite communications company that is working towards establishing an in-space telecommunications network for space-borne assets. Put simply, we are building cell phone towers in space. This infrastructure will resolve the problem of intermittent connectivity for non-geostationary satellites, will open new businessopportunities that necessitate real-time connectivity to satellites, and will reduce reliance on costly and difficult to deploy ground infrastructure.The company is currently developing technologies and delivering services that solved terrestrial connectivity needs, offering terrestrial wideband and soon-to-be narrowband connectivity services for IoT applications.With Kepler's first service, named Global Data ServiceTM, they have been able to pack more Mbps into a nanosatellite than anybody else ever before. This wideband service delivers a store-and-forward type of solution for companies needing to move large quantities of delay-tolerant data from regions where connectivity is limited or non-existent. It is designed to transfer 100s of GBs of data monthly between remote locations and company headquarters or the internet. This service is available today for trials.Kepler is also developing a satellite service for Internet of Things devices – called everywhereIoTTM. A low-power, low-cost, bi-directional narrowband satellite service that will allow to connect assets all around the globe (at sea, land and even in the poles). With two satellites already in orbit, and a third scheduled for launch later in 2019, the company is currently preparing the deployment of its first LEO constellation for 2020.