The FusionSystems project began with conference talk at the University of British Columbia discussing, in part, some of the background of the project in the context of automorphisms of linking systems and its connection with the construction of centralizers in fusion systems. Initial effort in Aberdeen was dedicated to the preparation and deliverance of a talk to the general public on the subject of the research. Work then commenced on an investigation of the automorphisms and extensions of the Benson-Solomon fusion systems, the only currently known family of exotic systems at the prime two. The first publication, giving a complete description of such automorphisms and extensions, was widely disseminated and submitted for publication in January 2017, and was communicated formally in the Bristol-Leicester-Oxford Colloquium at City University, London. Also in December 2016-January 2017, the project also made progress on the problem of constructing centralizers of fusion subsystems, resulting in the development of an obstruction theory for rigid actions on linking systems. The research surrounding this portion of the project remains in progress. Effort subsequently turned to a solution of the Benson-Solomon component problem in the subintrinsic case, the background of which was communicated in the Algebra Seminar at the University of Birmingham near the beginning of the effort. A manuscript containing the solution is now completed, and is expected to be prepared for dissemination and submission by the end of November 2017. Concurrently, the project finished the determination of the complete list of the centric and radical subgroups and of their outer automorphism groups in these systems, a result cited in the solution to the Benson-Solomon component problem. This action resulted in a third completed manuscript, which is expected to be disseminated and submitted for publication by the end of November 2017. Further formal communication of the results of the project will continue in a deliberate fashion for one to two years.