Relation network

Such a supply chain network easily adds up to tens of thousands of nodes and edges with which the product relations are described, whereby a node can represent raw material, an intermediary product or a final product. An edge represents the relationship between two products. As there are usually predecessor/successor relations, the relation network can be interpreted as a directed graph. The material flow is modelled in form of an edge, material factors and offset times are stored as attributes [3,10, 23, 25, 33]. 

Sperling, L. H., Inteirpenetrating Polymer Networks and Related Networks, John Wiley Sons, N.Y. 1981. 

The main timer types are precision reference, electronic, mechanical, pyrotechnic, flueric and electrochemical. Also covered are fluid timers (not to be confused with flueric timers) and nuclear decay timers. Electronic and flueric timers are similar in that they both use oscillators, amplifiers, and related networks to achieve tuning and frequency control. In mechanical... 

Encourage and organise a related network of experts, including technology watch... 

On the other hand, if you want to know, for example, why lipids are depleted in C relative to other biosynthetic products, it will be necessary to examine evidence capable of revealing the structure and characteristics of the related network of reactions. Two complementary approaches have been developed thus far. Most straightforwardly, DeNiro and Epstein (1977) devised experiments for the determination of isotope effects at key points in the reaction network that links -alkyl lipids to metabolites derived from carbohydrates and from some amino acids. In contrast, Abelson and Hoering (1961) pioneered the examination of intramolecular patterns of isotopic order. They studied the biosynthesis of amino acids, analyzing only the end products. However, they determined not only the S values of the individual molecules but also (to the extent possible) the distributions of within the molecules. A similar approach was later used by Monson and Hayes (1982a) to study isotopic fractionations in lipid biosynthesis. 

Macroporous hypercrosslinked styrene-divinylbenzene copolymers and related networks... 

The decomposition-based approach overviewed in Section 10 was first developed in Ettl et al. (2000) for the purpose of performance evaluation and optimization of a large-scale enterprise supply chain. (Refer to Lee and Billington 1986 for an earlier, related work on modeling supply chains.) A related network model, for semiconductor fabrication, appeared in Connors et al. (1996). Also refer to Buzacott and Shanthikumar (1993) for other network models using decomposition-based approximations. 

An increasing t is related to a monotonic increase/decrease in the volume of each of the two related networks and leads to an increase in the absolute mean curvature H, see Fig.2.2c. Correlated to the change in volume fraction is the growing offset of the surface from the t = 0 base surface. For t, the surface on one side of the minimal surface (t = 0) with a certain offset, while for —t the surface lies on the opposite side with the same offset. This behavior wiU become clearer when discussing the double-gyroid. 

An interesting series of structures based on the rutile net illustrates the relationship between interpenetration and self-penetration. The compounds are constructed using octahedral metal ions and the trigonal ligands tcm [tricyanomethanide, C(CN) ] and dca [dicyanamide, N(CN)2 ]. It is important to note that dca is a smaller ligand than tcm. Thus, while the compounds M(tcm)2 have two interpenetrating rutile-related networks,the... 

The existence of more than one type of network super-stracture for the same molecular building block represents supramolecular isomerism. Therefore, it is related to stractural isomerism at the molecular level. Supramolecular isomerism is the existence of different architectures (i.e., architectural isomerism) or superstructures. Polymorphism is a type of supramolecular isomerism but not vice versa. Supramolecular isomerism can be classified as structural (the same components result in different network superstructures), conformational (different conformations of a flexible molecule generate different, but often related, network architectures), catenane (the different maimer and degrees in which networks interpenetrate or interweave), and optical (chirai networks that... 

Equation 7.39 has proved successful in relating network structure to mechanical properties. However, a more general form of equation 7.39 that attempts to allow for the approximation used in the derivation of equation 7.39 is often taken as the starting point for network structure property studies. This is given by... 

In a somewhat related network problem, Meissner and Klier derived an equation to express the behavior of supercoiled networks. Such materials may be prepared by polymerization and/or crosslinking in solution, and evaporation of the solvent. 

Conformational—Conformational changes in flexible ligands (e.g., bis(4-pyridyl)ethane) generate a different but related network architecture. Conformational polymorphism is a closely related subject. 

Power backup solutions for telecom and related networks. Dantherm Power Catalogue 2008... 

In summary, we are therefore concerned with the operation and maintenance of sensors, controllers, actuators, valves, dampers, motors, the infrastructure connecting them to the mechanical equipment, and finally, when installed, all related network components that feed into the human operator of a computerized management and control system. 

A node (object) is first selected as a seed, using a probability function according to the binding quality of objects, and put into a set, S. S is expanded randomly on the relation network to form a connected sub-network of Grn- In each expansion, we calculate the neighboring objects, N, of S. A probability for each object in N is computed based on its binding quality and the strength of its correlation to the objects in S. An object is then selected from N randomly according to the probability computed and put into S. The expansion continues until the number of objects in S exceeds a pre-specified limit. 

---