This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cro...This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cross-layer architecture, the information in link layer is used for adaptive resource allocation in OFMDA. A new cross-layer adaptive resource allocation algorithm is developed which can guarantee the users to be in minimum average waiting time in link-layer and get the better spectrum utilization. Numerical results show that our scheme is appealing and can get about half of average waiting time less and 0.5 bps/Hz spectrum utilization more than the scheme in 1EEE802.16a.展开更多
Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were...Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were fixed, and three monodentate ligands, 3-Mepy (3-methylpyridine), 4-NH2py (4-aminopyridine), and 2-Meim (2-methylimidazole) were used as the axial ligand X. The temperature dependence of magnetic susceptibility measurements demonstrated that [Fem(3-Mepy)L2]BPh4 showed a gradual spin equilibrium between HS (high-spin) (S = 5/2) and LS (low-spin) (S = 1/2) states, [Fem(4-NH2py)L2]BPh4 showed a steep SCO (spin crossover) and [FeIH(2-Melm)L2]BPh4 was in the HS state even at 100 K. The single crystal X-ray analyses demonstrated that [FelH(4-NH2py)L2]BPh4 has an one-dimensional chain structure constructed by intermolecular hydrogen bonding between 4-amino group of 4-NH2py and methoxy oxygen of adjacent molecular-cation. The crystal structure of [FenI(3-Mepy)L2]BPh4 has no such intermolecular interaction and its SCO site behaves independently, and the crystal structure of [FeIII(2-Meim)L2]BPh4 has a NH...n interaction between imidazole group of 2-Meim of cation and a phenyl group of anion BPh4. The result demonstrates that the intermolecular hydrogen bonding affects SCO profile significantly.展开更多
The purpose of the present study was to analyse the changes of macromolecular organizations in nonjunctional sarcolemmas of different types of skeletal muscle fibres after cross-innervation. In normal rats the mean de...The purpose of the present study was to analyse the changes of macromolecular organizations in nonjunctional sarcolemmas of different types of skeletal muscle fibres after cross-innervation. In normal rats the mean density of square arrays (6 nm particles organized in orthogonal arrays) was 9.02/μm2 for the nonjunctional sarcolemmas of fast-twitch extensor digitorum longus (control EDL,CE) nuscle fibres and 0.34/μm2 for the nonjunctional sarcolemmas of slow-twitch soleus (control SOL, CS) muscle fibres. After cross-innervation between the fast-twitch EDL and slow-twitch SOL muscle fibres by slow and fast muscle merves respectively for three months, the mean density was 0.45/μm2 for the nonjunetional sarcolemmas of the operated-EDL (OE) and 8.3/μm2 for the nonjunctional sarcolemmas of the operated SOL (OS). This indicates that the cross-innervation causes a reciprocal transformation of the number and distribution of such macromolecular organizations in the electrically excitable nonjunctional sarcolemmas.展开更多
基金Supported by the National Natural Science Foundation of China (No.60072048) the Doctoral Program Fund of Ministry of Education of China (No.20010561007).
文摘This paper utilizes the cross-layer architecture to implement adaptive resource allocation in Orthogonal Frequency Division Multiple Access (OFDMA) based on the broadband wireless access system. According to the cross-layer architecture, the information in link layer is used for adaptive resource allocation in OFMDA. A new cross-layer adaptive resource allocation algorithm is developed which can guarantee the users to be in minimum average waiting time in link-layer and get the better spectrum utilization. Numerical results show that our scheme is appealing and can get about half of average waiting time less and 0.5 bps/Hz spectrum utilization more than the scheme in 1EEE802.16a.
文摘Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were fixed, and three monodentate ligands, 3-Mepy (3-methylpyridine), 4-NH2py (4-aminopyridine), and 2-Meim (2-methylimidazole) were used as the axial ligand X. The temperature dependence of magnetic susceptibility measurements demonstrated that [Fem(3-Mepy)L2]BPh4 showed a gradual spin equilibrium between HS (high-spin) (S = 5/2) and LS (low-spin) (S = 1/2) states, [Fem(4-NH2py)L2]BPh4 showed a steep SCO (spin crossover) and [FeIH(2-Melm)L2]BPh4 was in the HS state even at 100 K. The single crystal X-ray analyses demonstrated that [FelH(4-NH2py)L2]BPh4 has an one-dimensional chain structure constructed by intermolecular hydrogen bonding between 4-amino group of 4-NH2py and methoxy oxygen of adjacent molecular-cation. The crystal structure of [FenI(3-Mepy)L2]BPh4 has no such intermolecular interaction and its SCO site behaves independently, and the crystal structure of [FeIII(2-Meim)L2]BPh4 has a NH...n interaction between imidazole group of 2-Meim of cation and a phenyl group of anion BPh4. The result demonstrates that the intermolecular hydrogen bonding affects SCO profile significantly.
文摘The purpose of the present study was to analyse the changes of macromolecular organizations in nonjunctional sarcolemmas of different types of skeletal muscle fibres after cross-innervation. In normal rats the mean density of square arrays (6 nm particles organized in orthogonal arrays) was 9.02/μm2 for the nonjunctional sarcolemmas of fast-twitch extensor digitorum longus (control EDL,CE) nuscle fibres and 0.34/μm2 for the nonjunctional sarcolemmas of slow-twitch soleus (control SOL, CS) muscle fibres. After cross-innervation between the fast-twitch EDL and slow-twitch SOL muscle fibres by slow and fast muscle merves respectively for three months, the mean density was 0.45/μm2 for the nonjunetional sarcolemmas of the operated-EDL (OE) and 8.3/μm2 for the nonjunctional sarcolemmas of the operated SOL (OS). This indicates that the cross-innervation causes a reciprocal transformation of the number and distribution of such macromolecular organizations in the electrically excitable nonjunctional sarcolemmas.
