If you have ever tried to manage a Mac drive (HFS+ or APFS) from a Windows PC, you have likely stumbled upon a piece of software called .
This paper introduces , a framework that moves beyond partial abstraction to offer full transparency and programmability of the MAC layer. By virtualizing the MAC processor, TransMAC-Full allows the network operating system to "see" inside the MAC state machine and modify it dynamically, enabling true cross-layer optimization. Transmac Full
The TransMAC-Full architecture is built upon three core pillars: , Temporal Decoupling , and Unified Scheduling . If you have ever tried to manage a
Macau’s bus market is duopolistic. While Transmac and TCM compete for routes and passenger share, the government’s fare subsidy and route tendering system force a degree of collaboration. The “full” vision for Transmac cannot succeed in isolation; it requires coordination with TCM on interchanges, fare integration, and emergency detours. In recent years, both operators have worked under the , allowing passengers to plan full journeys across companies. The TransMAC-Full architecture is built upon three core