Put full name in abstract

abstract.tex

@@ -14,11 +14,11 @@ in hardware security still often relies on the use of microelectronic integratio
 more fundamental security guarantees. System-level tamper protection is sometimes used, but remains relegated to niche
 applications due to the high cost and low performance of devices like Hardware Security Modules (HSMs).
 
-In this thesis, Jan Götte introduces the Inertial Hardware Security Module (IHSM), a new architecture for low-cost
-hardware security modules that provide high-level active tamper protection, while supporting computing payloads of much
-larger size, weight and power dissipation compared to conventional HSMs. In an IHSM, the costly and difficult to source
-tamper-sensing mesh of a conventional HSM is replaced by a mesh made from simple PCBs that is rotating at high speed
-around the payload. Since the mesh is rotating, it cannot be manipulated, and the security of conventional meshes
+In this thesis, Jan Sebastian Götte introduces the Inertial Hardware Security Module (IHSM), a new architecture for
+low-cost hardware security modules that provide high-level active tamper protection, while supporting computing payloads
+of much larger size, weight and power dissipation compared to conventional HSMs. In an IHSM, the costly and difficult to
+source tamper-sensing mesh of a conventional HSM is replaced by a mesh made from simple PCBs that is rotating at high
+speed around the payload. Since the mesh is rotating, it cannot be manipulated, and the security of conventional meshes
 created in bespoke manufacturing processes can be achieved using much simpler and less expensive construction
 techniques. The thesis presents solutions to key engineering challenges in IHSM construction including a highly
 symmetric planar inductor design for rotating wireless power transfer and a high-fidelity monitoring system for low-cost