VP, Advanced Technology, Kratos Technology and Training Solutions, Kratos
Mr. Daughtridge has been with Kratos-Integral Systems since 1999, and in the satellite and aerospace industry since 1986. In his current position, Mr. Daughtridge leads Kratos’ satellite ground segment technology initiatives. These currently include advancement of signal cancellation and digital IF applications, virtualization of ground system operations and development of monitoring and managing technologies for HTS satellites. Additionally, he leads advanced technical planning for the next generation of ground segment technology. Prior to his current role, he held several senior management positions, including SVP & GM of the Integral Systems Products Group, SVP & GM of the Integral Systems Commercial Group, as well as Program Manager of several major commercial programs. Before joining the Company, Mr. Daughtridge held various management and engineering positions with Orion Satellite Corporation, Intelsat, and Spacecom. Mr. Daughtridge holds a Bachelor of Science from Lafayette College.
Topical Session 5: Satellite - Satcom in the Next Decade: What Will the Future Hold?
Monday, 22 January 2018
Topical Session 15: Satellite Ground Systems Market: Looking Up?
Wednesday, 24 January 2018
What makes HTS so attractive is its high level of frequency re-use and spot beams enabling, for example, a gigabyte or more of frequency to be re-purposed by 50 times or more. EuroConsult estimates that approximately 130 HTS satellites will be launched in the next eight years. Each HTS satellite requires at least 1 gateway for each time the frequency is reused. As a result, thousands of new gateways will be required to support all of this new bandwidth. This requirement will put significant operational, financial and quality of service strains on operators unless they are able to revolutionize the fundamentals of satellite ground system architecture.
A typical gateway costs roughly $2 million to $4 million each, depending on the system requirements. Therefore, considering that lighting up a single HTS could require up to 10 gateways in the first few years of operations results in a $20-$40 million investment. Can the innovation that is enabling HTS in the sky be met with a new wave of innovation to optimize ground system performance and economics?
To enhance gateway optimization the industry will require
This presentation will address some of the new technologies and approaches being taken to re-architecture satellite ground system design to more readily enable and fulfill the promise of HTS satellites.