Abstract: A current limiting circuit including a transistor is disclosed. The current limiting circuit is coupled with a voltage and includes a summing network, wherein a first voltage input of the summing network is capable of receiving a voltage that is proportional with the current flowing through the transistor. The current limiting circuit further including a differential circuit, wherein a first input of the differential circuit is coupled with an output of the summing network, a second input of the differential circuit is coupled with a voltage ramp signal, and an output of the differential circuit is coupled with a gate of the transistor. The current limiting circuit still further including a voltage divider network coupled between the drain of the transistor and the second voltage input of the summing network.
Abstract: A method for distributed inventory management includes receiving information regarding a number of participants in a value chain and information regarding one or more items relevant in the value chain. The method also includes modeling relationships between two or more of the participants based on the received information and modeling the one or more items based on the received information. The method further includes receiving inventory data from the participants relating to the one or more items, evaluating the received inventory data according to one or more business rules associated with an agent, executing a business process associated with the agent based on the evaluation of the inventory data and the models of the relationships and the items, and communicating output of the business process to one or more of the participants.
Abstract: In one embodiment, optimizing inventory for a supply chain includes generating an inventory plan for the supply chains. Execution of a supply chain plan associated with the inventory plan is initiated at the supply chain. The supply chain is monitored to generate metric values. A watchpoint triggered by a metric value is detected, and a cause of the triggered watchpoint is identified using a causal tree. The inventory plan is adjusted in response to the detected triggered watchpoint and in accordance with the identified cause, and the supply chain plan is adjusted in accordance with the adjusted inventory plan. Execution of the adjusted supply chain plan is initiated, and new metric values are measured to determine performance. The performance is evaluated, and the causal tree is updated in response to the evaluation.
Abstract: An imaging system. Implementations of imaging systems may include a laser light source, at least one imaging detector coupled to the laser light source, a shearing interferometer coupled to at least one imaging detector, and a timing system coupled to the at least one imaging detector and the laser light source. A ranging detector may be coupled to the laser light source and the timing system, and at least on sensitivity modulator may be coupled with the at least one imaging detector and with the timing system.
Abstract: An Amino Acid Compound is described. The Amino Acid Compound may comprise an Amino Acid and one of a Nitrate and a Nitrite. The Amino Acid may be one of Agmatine, Arginine, Beta Alanine, Citrulline, Creatine, Glutamine, L-Histidine, Isoleucine, Leucine, Norvaline, Ornithine, and Valine.
Abstract: A method of multi-enterprise optimization at a buyer computer includes accessing a forecasted demand for at least one item and generating one or more proposed flexible trade contracts using the forecasted demand for the item. The proposed flexible trade contract is communicated to a seller computer and subsequently executed after acceptance of the proposed flexible trade contract at the seller computer to create a flexible trade contract. Each proposed flexible trade contract may be a forward contract, an option contract, or a flexible forward contract.
Abstract: A tumbler with convertible lid and coaster and methods of use thereof are described. A tumbler comprises a brim, the brim defining an open end of the tumbler, an exterior side wall, an interior side wall comprising a tumbler lug, and a bottom portion comprising a tumbler bottom groove. A convertible lid and coaster comprises a top surface, the top surface further comprises a finger recess, a securable straw hole coupled with the convertible lid and coaster, a side edge comprising a convertible lid and coaster groove, and a bottom surface comprising a recessed opening, the recessed opening comprising a lid and coaster lug.
Abstract: A capacitor and a method for assembling a capacitor. A capacitor is assembled from a case, which contains an anode that is electrically coupled to the case and defines wells or slots receiving a plurality of cathode plates. A header is placed on the case. The header also supports a glass seal that insulates the lead tube and cathode lead coming from the cathode. Once assembled, the capacitor is filled with electrolyte. A weld extends around the header to secure the header to the case. A bent cathode configuration enables a plurality of cathode plates electrically coupled together from a common cathode plate.
Abstract: In one embodiment, an enterprise solution framework is provided. A configuration segment is provided for specifying a configuration of an enterprise. The configuration segment includes a system for centrally managing core enterprise reference data, including: (1) a centralized master repository containing the reference data; (2) an internal services framework providing internal services for managing the reference data, the internal services having direct access to the reference data for management purposes; and (3) an infrastructure services layer providing bulk data transfers of reference data between the repository and external operational systems according to enterprise-level business workflows, the external operational systems being permitted indirect access to the reference data for operational purposes. A planning segment is provided for planning according to the configuration specified in the configuration segment.
Abstract: A convertible electrical device cover including a base and an adapter coupled as an assembly and configured to accommodate an electrical device. When the convertible electrical device cover is placed in an operative position over the electrical device the adapter may be located between the electrical device and a rear of the base. In particular implementations, a portion of the adapter may be located behind the yoke of the electrical device. The adapter may be movably coupled to the base. A method for installing a convertible electrical device cover is also disclosed including placing the convertible electrical device cover in an operative position over an electrical device so that an adapter may be located between the electrical device and a rear of a base.
Type:
Grant
Filed:
October 26, 2007
Date of Patent:
July 27, 2010
Assignee:
TayMac Corporation
Inventors:
Michael J. Shotey, Marcus J. Shotey, Edgar W. Maltby, Kenneth C. Booth
Abstract: Determining a policy parameter for an entity of a supply chain includes establishing attributes of the entities of the supply chain. Attribute segments are established for each attribute, where an attribute segment includes one or more values of the corresponding attribute. Rules are formulated using the attribute segments to define policy groups, and policy parameters are assigned to each policy group. A policy group corresponding to an entity is identified in accordance with the rules. The policy parameters assigned to the identified policy group are determined and selected for the entity.
Abstract: A binary tree structure for detecting inventory problems. A first embodiment detects on-hand inventory problems. A second embodiment detects inventory requirements problems. Both embodiments use a binary tree whose nodes store time values and delta values. The delta values represent inventory consumers or producers. The time values of trees used for inventory requirements problems are shifted in accordance with build-ahead times.
Abstract: A binary tree structure for detecting inventory problems. A first embodiment detects on-hand inventory problems. A second embodiment detects inventory requirements problems. Both embodiments use a binary tree whose nodes store time values and delta values. The delta values represent inventory consumers or producers. The time values of trees used for inventory requirements problems are shifted in accordance with build-ahead times.
Abstract: A binary tree structure for detecting inventory problems. A first embodiment detects on-hand inventory problems. A second embodiment detects inventory requirements problems. Both embodiments use a binary tree whose nodes store time values and delta values. The delta values represent inventory consumers or producers. The time values of trees used for inventory requirements problems are shifted in accordance with build-ahead times.
Abstract: A system (10) for managing a capacity extreme at a first entity (12) in a supply chain includes a planning application (36) that receives status data for at least the first entity (12) reflecting the capacity extreme at the first entity (12) and generates a plan (34) according to the status data. A manager application (44) receives the plan (34) and, according to the plan (34), automatically initiates at least one service in an attempt to resolve at least a portion of the capacity extreme through interaction with one or more other entities (12). The manager application (44) selects the service from among a plurality of available services based on a monetary value to the first entity (12) of a resolution expected to be available using the selected service relative to other services.
Type:
Grant
Filed:
May 21, 2007
Date of Patent:
June 29, 2010
Assignee:
i2 Technologies US, Inc.
Inventors:
Ranjit N. Notani, Vinatha Chaturvedi, Vinayak S. Ghaisas, Harsha Chaturvedi