9%). AMA also appeared to improve medical management. Indeed, compared to the literature, we observed lower incidence in secondary hospitalization (6%), delayed treatment
(6%), reduced relative Stem Cells & Wnt inhibitor dose-intensity (RDI) (no patient with RDI < 80%), toxic death (0%), and red blood cell transfusion (13%).\n\nConclusions: AMA appears to improve R-CHOP therapy management. However, comparative studies are needed to demonstrate the advantage of the AMA over standard management, in terms of therapeutic compliance, progression-free survival, and medico-economics efficacy. (C) 2011 Elsevier Ltd. All rights reserved.”
“In this paper, we present a general class of BAM neural networks with discontinuous neuron activations and impulses. By using the fixed point theorem in differential inclusions theory, we investigate the existence of periodic solution for this neural network. By constructing the suitable Lyapunov function, we give a sufficient condition which ensures the uniqueness and global exponential stability of the periodic solution. The results of this paper show that the Forti’s conjecture is true for BAM neural networks
with discontinuous neuron activations and impulses. Further, a numerical example is given to demonstrate the effectiveness of the results obtained in this paper. (C) 2008 Elsevier Inc. All rights reserved.”
“Broadcasting is an important operation in wireless networks where control information is usually propagated as broadcasts for DAPT cost the realization of most networking protocols. In traditional ad hoc Z-VAD-FMK order networks, broadcasts are conducted on a common channel, which is shared by all nodes in the network. However, in cognitive radio (CR) ad hoc networks, unlicensed users may observe heterogeneous spectrum availability, which is unknown to other unlicensed users before the control information was broadcast. Thus, it is extremely challenging that broadcasts can be successfully conducted without knowing the spectrum availability information in advance. In addition, since broadcast collisions
(i.e., simultaneous reception of broadcast messages at the same node) often lead to the waste of network resources, they should be efficiently mitigated in multihop scenarios. In this paper, a quality-of-service (QoS)-based broadcast protocol under Blind Information for multihop CR ad hoc networks, i.e., QB(2)IC, is proposed with the aim of having a high success rate and short broadcast delay. In our design, we do not assume that unlicensed users are aware of the network topology, the spectrum availability information, and time synchronization information. To the best of our knowledge, this is the first paper that investigates the broadcast issue in multihop CR ad hoc networks under blind information. Simulation results show that our proposed QB(2)IC protocol outperforms other broadcast schemes in terms of a higher success rate and shorter average broadcast delay.