According to the estimation, Machine-to-Machine(M2M) devices in the Internet of Things(IoT) would be boosted in the near future. LTE system is originally designed for human to human(H2H) communications. The most of radio resource is allocated to data channels but rarely less to control channels. Comparing M2M traffic with H2H traffic, M2M devices only have lightweight uplink packet to report their data. When numerous devices access the network, there are huge amount of the controlling signals would be sent. The overhead of control packets would be too high for the system to maintain the service when massive M2M device access the network. To resolve the problem and improve the performance of LTE system, two scenarios are analyzed. One is a inter-channel dynamic resource allocation scheme designed for massive devices. First, we calculate the resource requirement for each device and estimate the traffic of random access attempts, then allocate data resource and control resource properly in pursuit of high success transmission probability. The other is a game theoretic analysis to a hybrid scenario. We evaluate the performance and find that our proposed scheme in both scenario has better performance in terms of success probability and resource efficiency.