Abstract
Despite the significant improvement on network performance provided by global routing strategies, their applications are still limited to small-scale networks, due to the need for acquiring global information of the network which grows and changes rapidly with time. Local routing strategies, however, need much less local information, though their transmission efficiency and network capacity are much lower than that of global routing strategies. In view of this, three algorithms are proposed and a thorough investigation is conducted in this paper. These algorithms include a node duplication avoidance algorithm, a next-nearest-neighbor algorithm and a restrictive queue length algorithm. After applying them to typical local routing strategies, the critical generation rate of information packets Rc increases by over ten-fold and the average transmission time 〈T〉 decreases by 70–90 percent, both of which are key physical quantities to assess the efficiency of routing strategies on complex networks. More importantly, in comparison with global routing strategies, the improved local routing strategies can yield better network performance under certain circumstances. This is a revolutionary leap for communication networks, because local routing strategy enjoys great superiority over global routing strategy not only in terms of the reduction of computational expense, but also in terms of the flexibility of implementation, especially for large-scale networks.
Highlights
Communication networks play increasingly integral roles in our’s daily lives
Routing strategies on communication networks can be divided into two categories: one is the local routing strategy, including local static routing [3], local dynamic routing [4] and local pheromone routing strategy [5]; the other is the global routing strategy, such as shortest path routing strategy [6,7,8], efficient routing strategy [9] and global dynamic routing strategy [10]
The reason is that the dynamic information taken into account in the other two strategies is ignored in the local static case
Summary
Communication networks play increasingly integral roles in our’s daily lives. In recent years, a great of research effects have been devoted to improving the performance and efficiency of communication networks. We analyze the cause of the poor efficiency of local routing strategies This leads to three special algorithms that can significantly improve the transmission efficiency and outperform global routing strategies in some cases. Prompted by this analysis, we propose three algorithms and apply them to the local pheromone routing strategy. The critical generation rate of information packets and the average transmission time are two key physical quantities for assessing the efficiency of routing strategies on complex networks. We use the order parameter η to characterize the phase transition [19]: ZðRÞ lim t!1
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
