As you are looking for syllabus and notes for Mobile Computing subject offering by IIT Bombay, so here I am giving syllabus:

IIT Bombay Mobile Computing Syllabus

Overview of wireless and mobile systems (wireless LANs, cellular systems, sensor networks, etc.) and the challenges therein.

Medium access, multiplexing, link adaptation.

Multicast, multihop data forwarding, opportunistic routing.

TCP behavior over wireless, other transport layer issues.

Smartphone-based platform architectures and applications.

Future directions: dynamic spectrum access, heterogenuous networks, internet of things

The radio channel and wireless physical layer design.

Solutions to handle mobility at various layers of the networking stack.

Energy efficiency, localization, security.

Multihop routing protocols, routing metrics.

Reference Books List
Physical layer design and MIMO: 802.11 with Multiple Antennas for Dummies
Wireless link characteristics: Link-level Measurements from an 802.11b Mesh Network
Bit rate adaptation (SampleRate algorithm): Bit-rate Selection in Wireless Networks
802.11 link-layer throughput calculations: When Is 54 Not Equal to 54? A Look at 802.11a, b, and g Throughput
A WiFi multicast proposal: DirCast: A Practical and Efficient Wi-Fi Multicast System
Proposals to minimize energy spent in idle state in wireless networks. One deals with WiFi-like networks, and the other with cellular networks. Both papers have some interesting insights into energy consumption in practice. E-MiLi: Energy-Minimizing Idle Listening in Wireless Networks, RadioJockey: Mining Program Execution to Optimize Cellular Radio Usage.
Mobile IP: Mobile Networking through Mobile IP.
Multihop routing protocols: DSDV, DSR, AODV.
Data transfer over multihop networks: Flush: A Reliable Bulk Transport Protocol for Multihop Wireless Networks, PIP: A Connection-Oriented, Multi-Hop, Multi-Channel TDMA-based MAC for High Throughput Bulk Transfer.
Opportunistic routing: ExOR: Opportunistic MultiHop Routing for Wireless Networks, Trading Structure for Randomness in Wireless Opportunistic Routing.
TCP performance over wireless links: A Comparison of Mechanisms for Improving TCP Performance over Wireless Links.
Buffer bloat problem: Bufferbloat: Dark Buffers in the Internet.
TCP buffer sizing: see section 2 of Sizing Router Buffers.
Transport layer mobility schemes. MSOCKS: An Architecture for Transport Layer Mobility, Migrate: An End-to-End Approach to Host Mobility.
Android architecture. Understanding Android Security and slides based on this tutorial.
Energy saving techniques at the application layer. Energy profiling tool and case studies of popular apps: Fine Grained Energy Accounting on Smartphones with Eprof. Power consumption in browsers: Who Killed My Battery: Analyzing Mobile Browser Energy Consumption. Code offloading and remote execution: MAUI: Making Smartphones Last Longer with Code Offload.