IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0522372
(2000-03-10)
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발명자
/ 주소 |
- Gudmundsson, Thorkell
- Erickson, Mark
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출원인 / 주소 |
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대리인 / 주소 |
Blakely, Sokoloff, Taylor & Zafman LLP
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인용정보 |
피인용 횟수 :
16 인용 특허 :
3 |
초록
▼
A method is disclosed for automatic synthesis of multi-variable controllers. A design sequence for designing a controller for a system is selected, wherein the controller includes one or more controller components. A first set of parameters associated to the one or more controller components is then
A method is disclosed for automatic synthesis of multi-variable controllers. A design sequence for designing a controller for a system is selected, wherein the controller includes one or more controller components. A first set of parameters associated to the one or more controller components is then selected. A second set of parameters associated to the first set of parameters is subsequently selected. One or more parameters of the second set are then iteratively modified to obtain a set of modified parameters, until a plurality of performance characteristics calculated using the second set of parameters meets a performance objective for the system.
대표청구항
▼
A method is disclosed for automatic synthesis of multi-variable controllers. A design sequence for designing a controller for a system is selected, wherein the controller includes one or more controller components. A first set of parameters associated to the one or more controller components is then
A method is disclosed for automatic synthesis of multi-variable controllers. A design sequence for designing a controller for a system is selected, wherein the controller includes one or more controller components. A first set of parameters associated to the one or more controller components is then selected. A second set of parameters associated to the first set of parameters is subsequently selected. One or more parameters of the second set are then iteratively modified to obtain a set of modified parameters, until a plurality of performance characteristics calculated using the second set of parameters meets a performance objective for the system. in the front and rear of the case and is coupled to the internal voice conduction structure extending toward the front and rear of the case, and one of said independent microphones is provided in the front or the rear of the case. 2. A voice interface structure as claimed in claim 1, within, its opposite structure is comprised of a keypad 4 and a display 5 provided in the front of the case of a cellular phone while a cell 102, a horn 2 and a microphone 3 are provided on the opposite side so to separate electromagnetic wave by means of the case and the cell of the cellular phone. 3. A voice interface structure as claimed in claim 1, wherein: a hemispheric or C-shape or ring-shape voice conduction hood is provided on the side of the case of the cellular phone where the common horn is provided, at least one independent microphones is provided at a front or rear of the case, and a hemispheric or C-shape, or ring-shape voice conduction hood is also provided on a receiving side; or a hemispheric or C-shape or ring-shape voice conduction hood is provided on the side of the case where a common horn is provided, an independent microphone is provided at front or rear of the case, and a hemispheric or C-shape or ring-shape voice conduction hood is also provided on the receiving side; or the common horn is respectively provided in the front and rear of the case and is coupled to an internal voice conduction structure extending toward the front and rear of the case, the common microphone is provided and coupled to the internal voice conduction structure extending toward the front and rear of the case, and the hemispheric or C-shape or ring-shape voice conduction hood 6 is each provided and coupled to the internal voice conduction structure extending toward the front and rear of the case, and the hemispheric or C-shape or ring-shape voice conduction hood is provided on each of the receiving and transmission sides; or the independent horn is respectively provided either in the front or the rear of the case, and the hemispheric or C-shape or ring-shape voice conduction hood is provided on the transmission or receiving sides; or the independent horn and a microphone are both provided in either the front or the rear of the case, and a hemispheric or C-shape or ring-shape voice conduction hood is respectively provided in the rear of the case, or an independent horn is provided in the rear and a microphone is provided in the front of the case, while a hemispheric or C-shape, or ring-shape voice conduction hood each provided on the transmission and receiving sides. 4. A voice interface structure as claimed in claim 1, wherein a hemispheric or C-shape or ring-shape voice conduction hood is provided only on the side of the case of the cellular phone where a horn is provided, the side provided with a microphone includes no voice conduction hood. 5. A voice interface structure as claimed in claim 1, wherein a hemispheric or C-shape or ring-shape voice conduction hood is provided on one side of one of said microphones, at a lower end of the case, and the side provided with the horn includes no voice conduction hood. 6. A voice interface structure as claimed in claim 1, wherein hemispheric or C-shape or ring-shape voice conduction hood is provided on either side of the common horn provided at an upper end of the case and a side of the case where a common horn is provided includes no voice conduction hood. 7. A voice interface structure as claimed in one of claim 3, 4, 5, or 6, wherein at least one voice conduction pore is provided at a pre-selected transmission or receiving location on the voice conduction hood. 8. A voice interface structure as claimed in claim 1, wherein said phone is a cellular phone having a flip-cover. 6554, 19810500, Hamaguri; US-4357105, 19821100, Loretz; US-4407290, 19831000, Wilber; US-4446871, 19840500, Imura; US-4714341, 19871200, Hamaguri et al.; US-4740080, 19880400, Donohue et al.; US-4773422, 19880900, Isaacson et al.; US-4796636, 19890100, Branstetter et al.; US-4802486, 19890200, Goodman et al.; US-4819649, 19890400, Rogers et al.; US-4819752, 19890400, Zelin; US-4854699, 19890800, Edgar, Jr.; US-4859057, 19890800, Taylor et al.; US-4867557, 19890900, Takatani et al.; US-4892101, 19900100, Cheung et al.; US-4928692, 19900500, Goodman et al.; US-4934372, 19900600, Corenman et al.; US-4960126, 19901000, Conlon; US-5190038, 19930300, Polson et al.; US-5216598, 19930600, Branstetter et al., 600/330; US-5224478, 19930700, Sakai et al.; US-5348004, 19940900, Hollub; US-5349519, 19940900, Kaestle; US-5355880, 19941000, Thomas et al.; US-5398680, 19950300, Polson et al.; US-5413100, 19950500, Barthelemy et al.; US-5421329, 19950600, Casciani et al.; US-5482036, 19960100, Diab et al.; US-5490505, 19960200, Diab et al.; US-5490506, 19960200, Takatani et al.; US-5517988, 19960500, Gerhard; US-5533507, 19960700, Potratz; US-5632272, 19970500, Diab et al.; US-5645060, 19970700, Yorkey; US-5685299, 19971100, Diab et al.; US-5758644, 19980600, Diab et al.; US-5769785, 19980600, Diab et al.; US-5782237, 19980700, Casciani et al.; US-5797840, 19980800, Akselrod et al., 600/301; US-5823950, 19981000, Diab et al.; US-5825672, 19981000, Brudnoy; US-5842981, 19981200, Larsen et al.; US-5853364, 19981200, Baker, Jr. et al.; US-5919134, 19990700, Diab; US-5924980, 19990700, Coetzee; US-5995856, 19991100, Mannheimer et al.; US-5995859, 19991100, Takahashi; US-6011986, 20000100, Diab et al.; US-6031603, 20000200, Fine et al.; US-6036642, 20000300, Diab et al.; US-6067462, 20000500, Diab et al.; US-6081735, 20000600, Diab et al.; US-6083172, 20000700, Baker, Jr. et al. s and the cellular phone further includes a plurality of signal contacts at the rear of the recess of the cellular phone, said second signal contacts being in electrical and signal communications with the cellular phone through engagement of the second signal contacts of the cell and the signal contacts of the cellular phone. 6. The combination of claim 2, wherein the notebook computer has a recess for receiving the touch pad and cell, with the touch pad and the cell received in the recess of the notebook computer serving as an input device of the notebook computer. 7. The combination of claim 6, wherein the cell is charged by the notebook computer when the cell is received in the recess.
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