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Environmental indicators computed for a particular environment are converted into a transmittable data format each of the environmental indicators is computed by electronic environmental measurement device from among multiple diverse electronic environmental measurement devices. Environmental indica

Environmental indicators computed for a particular environment are converted into a transmittable data format each of the environmental indicators is computed by electronic environmental measurement device from among multiple diverse electronic environmental measurement devices. Environmental indicators are transmitted to a portable data processing system associated with a user, which analyzes each of the environmental indicators according to an environment sensitivity profile stored at the portable data processing system for the user. Control signals are determined by the portable computer system for adjusting multiple environment control systems that control the particular environment in response to the analysis, such that a particular environment is temporarily managed by a portable data processing system according to environmental sensitivities of a particular user located within that particular environment.

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Environmental indicators computed for a particular environment are converted into a transmittable data format each of the environmental indicators is computed by electronic environmental measurement device from among multiple diverse electronic environmental measurement devices. Environmental indica

Environmental indicators computed for a particular environment are converted into a transmittable data format each of the environmental indicators is computed by electronic environmental measurement device from among multiple diverse electronic environmental measurement devices. Environmental indicators are transmitted to a portable data processing system associated with a user, which analyzes each of the environmental indicators according to an environment sensitivity profile stored at the portable data processing system for the user. Control signals are determined by the portable computer system for adjusting multiple environment control systems that control the particular environment in response to the analysis, such that a particular environment is temporarily managed by a portable data processing system according to environmental sensitivities of a particular user located within that particular environment. lot to the target value of the inspection item based on accumulated measured data, the deviations being generated by the first processing equipment; determining a dispatching order of the first lot to the plurality of second processing equipment according to the evaluated process capabilities evaluated by the computer system; and dispatching the first lot to an available one of the second processing equipment that is designated by the dispatching order. 2. The lot dispatching method according to claim 1, further comprising: measuring respective inspection items of a lot respectively processed by the first and second processing equipment; and transferring measured data obtained from the respective inspection items during said measuring to the computer system and updating existing data stored in the computer system. 3. The lot dispatching method according to claim 1, wherein the process capabilities of the second processing equipment are represented by a span of the inspection item, wherein span=A-(R+TG), and the dispatching order is determined by absolute values of the span, wherein a relatively low absolute value of the span is given priority, wherein A is a measured value of the inspection item of the first lot, TG is the target value of the inspection item of the second process, and R is a latest representative value of skews generated by each pair of processing equipment that is comprised of a first processing equipment and a second processing equipment, the skews being deviation values between a measured value of the inspection item after the first process and a measured value of the inspection item after the second process with respect to an identical lot. 4. The lot dispatching method according to claim 3, wherein the latest representative value R of skews is a mean value or an average value of the skews. 5. The lot dispatching method according to claim 1, further comprising checking whether a measured value of the first lot with respect to the inspection item satisfies a control standard to judge whether the first lot is to be handled in accordance with the lot dispatching method, wherein a product standard is an external standard for judging whether a lot is defective or non-defective with respect to product quality, the control standard being set more strictly than the product standard. 6. A lot dispatching method for dispatching first lots which have been processed by a first process in which a plurality of first processing equipment are simultaneously operated to a second process that is subsequent to the first process and in which a plurality of second processing equipment are simultaneously operated, comprising: measuring respective inspection items of lots respectively processed by the first and second processing equipment; calculating skews of the inspection items which are deviation values between measured values of the inspection item after the first process and measured values of the inspection item after the second process with respect to an identical lot, the deviation values being generated by a plurality of pairs of processing equipment that is comprised of one of the first processing equipment and one of the second processing equipment, based on measured data of said measuring; determining a span of respective pairs of processing equipment wherein span=A-(R+TG), wherein A is a measured value of the inspection item of the first lots, TG is a target value of the inspection item of the second process, and R is a latest representative value of skews generated by each pair of processing equipment; determining a dispatching order of respective second processing equipment which are paired with one of the first processing equipment which has processed the first lots, wherein the dispatching order is determined by absolute values of the spans, wherein a relatively low absolute value of the span is given priority; and dispatching respective first lots to a second processing equipment ac cording to the dispatching order. 7. The lot dispatching method according to claim 6, wherein the latest representative value R of skews is a mean value or an average value of the skews. 8. The lot dispatching method according to claim 6, further comprising checking whether the measured value of respective first lots with respect to the inspection item satisfies a control standard to judge whether the first lots are to be handled in accordance with the lot dispatching method, wherein a product standard is an external standard for judging whether a lot is defective or non-defective with respect to product quality, the control standard being set more strictly than the product standard. 9. The lot dispatching method according to claim 6, wherein when the second processing equipment designated by the dispatching order is not available, respective first lots are dispatched to another second processing equipment with a next highest priority as designated by the dispatching order. 10. The lot dispatching method according to claim 6, wherein the inspection item is one or more quality inspection items used in semiconductor device manufacturing processes including critical dimension, line width, thickness of a thin film, reflection rate, and insulation characteristics. 11. A lot dispatching method for dispatching current lots, in a semiconductor integrated circuit device manufacturing process having at least a first process and a second process that is subsequent to the first process, comprising: classifying values of an inspection item into several groups according to magnitude and preparing a plurality of process conditions for the second process, each of the processing conditions corresponding to a respective one of the several groups, wherein the process conditions have compensating characteristics to minimize a difference between a standard value of a group corresponding to a process condition and a target value of the inspection item; measuring the inspection item with respect to the current lots after the first process; selecting one of the process conditions corresponding to a measured value obtained during said measuring; and dispatching the current lots to the second process and setting the second process to a selected process condition. 12. The lot dispatching method according to claim 11, further comprising selecting for handling in accordance with the lot dispatching method an object lot from the current lots processed by the first process in which a measured value of the inspection item satisfies a product standard but does not satisfy a control standard, wherein the product standard is a criteria for judging whether a lot is defective or non-defective with respect to product quality, the control standard being set more strictly than the product standard. 13. The lot dispatching method according to claim 11, wherein the plurality of process conditions are determined by selecting at least one process condition element which influences a process result with respect to the inspection item from among process condition elements of the second process; determining a function for regulating values of the inspection item, the selected process condition elements being parameters of the function; determining values of the parameters for compensating the differences corresponding to respective groups; and setting the values of the parameters as values of the process condition elements. 14. The lot dispatching method according to claim 13, wherein the process condition elements which are parameters of the function are selected from a plurality of process condition elements by which dispersion characteristics of the measured value with respect to the inspection item are obtained within a predetermined reference range. 15. The lot dispatching method according to claim 13, wherein the function is substantially linear with respect to the parameters. 16. A lot dispatching method for dispatching a current lot which has been process ed by a first processing equipment using a first process to a second process that is subsequent to the first process and in which a plurality of second processing equipment are simultaneously operated, comprising: measuring an inspection item of lots processed by the first processing equipment and an inspection item of lots processed by a second processing equipment; classifying values of the inspection item into several groups according to magnitude and preparing a plurality of process conditions for the second process, wherein the process conditions have compensating characteristics which minimize a difference between a standard value of a group corresponding to each of the process conditions and a target value of the inspection item; determining whether a measured value of the inspection item of the current lot corresponds to a first case in which the measured value satisfies a product standard but does not satisfy a control standard that is set more strictly than the product standard or corresponds to a second case in which the measured value satisfies the control standard; selecting one of the process conditions based on the measured value of the inspection item of the current lot, dispatching the current lot to the selected second process and setting the second process to the selected process condition, if the current lot is determined to correspond to the first case; and dispatching the current lot to a second processing equipment which compensates deviations of the inspection item from the target value of the inspection item to a smallest value if the current lot is determined to correspond to the second case, wherein the deviations are generated by the first processing equipment with respect to the current lot. 17. The lot dispatching method according to claim 16, wherein the dispatching of the current lot to a second processing equipment comprises: storing measured data of the inspection item of prior lots processed prior to the current lot by the first processing equipment and measured data of the inspection item of the prior lots processed by one of the second processing equipment; evaluating a process capability of each of the second processing equipment to compensate the deviation of the inspection item from the target value of the inspection item, as generated by the first processing equipment with respect to the current lot, to the target value of the inspection item; determining a dispatching order of the current lot with respect to the plurality of second processing equipment according to the evaluated process capability; and dispatching the current lot to an available one of the second processing equipment which is designated by the dispatching order. 18. The lot dispatching method according to claim 17, wherein if the second processing equipment designated by the dispatching order is not available, the current lot is dispatched to another second processing equipment having a next highest priority as designated by the dispatching order. 19. The lot dispatching method according to claim 17, wherein the process capability of the second processing equipment is represented by a span of the inspection item wherein span=A-(R+TG), wherein A is a measured value of the inspection item of the current lot, TG is a target value of the inspection item in the second process, and R is a latest representative value of skews generated by each pair of processing equipment that is comprised of the first and second processing equipment, the skews being deviation values between a measured value of the inspection item after the first process and a measured value of the inspection item after the second process with respect to an identical lot, the dispatching order being determined by absolute values of the span wherein a relatively low absolute value of the span is given priority. 20. The lot dispatching method according to claim 19, wherein the latest representative value of skews R is a mean value or an a verage value of the skews. 21. The lot dispatching method according to claim 16, wherein the plurality of process conditions are determined by selecting at least one process condition element which influences a variation of a process result with respect to the inspection item from among process condition elements which determine the process condition of the second process; determining a function equation which can regulate the value of the inspection item, the selected process condition elements being parameters; determining values of the parameters which compensate error corresponding to the respective group; and setting the value of the parameters to a value of the process condition element. 22. The lot dispatching method according to claim 21, wherein the function equation is substantially linear with respect to the parameters. 23. A lot dispatching system for dispatching a first lot that has been processed by a first process to a second process in a semiconductor integrated circuit device manufacturing process having at least the first process and the second process that is subsequent to the first process, comprising: a first stage having a plurality of first equipment that are the same and that perform the first process on a second lot; a second stage having a plurality of second equipment that are the same and that perform the second process on the second lot; a measuring unit that measures an inspection item with respect to a lot processed by the first and second processes; and a controller that stores the measured data transferred from said measuring unit, that evaluates a process capability of each of the second processing equipment to compensate a deviation of the inspection item from a target value of the inspection item with respect to the first lot, that determines a dispatching order of the first lot to the second processing equipment according to the evaluated process capability, and that controls a dispatching process of the first lot to an available one of the second processing equipment which is designated by the dispatching order, the deviation of the inspection item being generated by the first processing equipment. 24. The lot dispatching system according to claim 23, wherein the process capability of the second processing equipment is represented by a span of the inspection item that is determined by said controller wherein span=A-(R+TG), wherein A is a measured value of the inspection item of a current lot, TG is a target value of the inspection item of the second process, and R is a latest representative value of skews generated by each pair of processing equipment that is comprised of a first processing equipment and a second processing equipment, the skews being deviation values between a measured value of the inspection item after the first process and a measured value of the inspection item after the second process with respect to an identical lot, the dispatching order being determined by absolute values of the span wherein a relatively low absolute value of the span is given priority. 25. A lot dispatching system for dispatching a current lot which has been processed by a first process to a second process in a semiconductor integrated circuit device manufacturing process, the second process being performed after the first process, comprising: a measuring unit that measures an inspection item of the current lot; first processing equipment that performs the first process on the current lot; second processing equipment that performs the second process on the current lot; and a controller that classifies values of the inspection item into a plurality of groups according to magnitude, that prepares a plurality of process conditions corresponding to the groups for the second process, the process conditions having compensating characteristics which minimize a difference between a standard value of a group corresponding to a process condition and a target value of the inspection item, that selects a process condition from among the process conditions based on a magnitude of measured data transferred from said measuring unit, and that dispatches the current lot to the second process and sets the second process to the selected process condition. 26. The lot dispatching system according to claim 25, wherein the plurality of process conditions are determined by selecting one or more process condition elements from among the process conditions of the second process which have influence on varying a process result with respect to the inspection item, by determining a function having the selected process condition elements as parameters thereof for regulating the process result of the inspection item, by determining values of the parameters which compensate the difference corresponding to a respective group, and by setting the values of the parameters to the values of the process condition elements. 27. A lot dispatching system for dispatching a first lot which has been processed by a first process to a second process that is subsequent to the first process in a semiconductor integrated circuit device manufacturing process, comprising: a first stage having at least one first processing equipment that are the same and that perform the first process on a second lot; a second stage having a plurality of second processing equipment that are the same and that perform the second process on the second lots; a measuring unit that measures an inspection item of lots processed by the first and second processes; and a controller that stores measured data received from said measuring unit, classifies values of the inspection item into a plurality of groups according to magnitude, prepares a plurality of process conditions corresponding to the groups for the second process, wherein the process conditions have compensating characteristics which minimize a difference between a standard value of the groups corresponding to a process condition and a target value of the inspection item, judges whether a measured value of the inspection item of the first lot corresponds to a first case wherein the measured value satisfies a product standard but does not satisfy a control standard which is set more strictly than the product standard or corresponds to a second case wherein the measured value satisfies the control standard, evaluates process capabilities of the second processing equipment to compensate a deviation of the first lot from the target value as generated by said first processing equipment with respect to the target value of the inspection item according to the stored measured data, when the measured value of the inspection item of the first lot is judged to correspond to the second case, determines a dispatching order of the first lot with respect to the plurality of second processing equipment according to the evaluated process capabilities, dispatches the first lot to an available one of the second processing equipment which is designated by the dispatching order, and selects one process condition from among the plurality of process conditions based on magnitude of the measured data transferred from said measuring unit, dispatches the first lot to the second process and sets the second process to the selected process condition, when the measured value of the inspection item of the first lot is judged to correspond to the first case. the ambient atmosphere, and an interior surface (90); said walls being joined at the mouth of the container whereby the exterior surface (70) of the inner wall (50) and the interior surface (90) of the outer wall (80) together define an essentially closed space (110).