Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction
A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions...
Ausführliche Beschreibung
Autor*in: |
Codecasa, Lorenzo [verfasserIn] |
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Format: |
E-Artikel |
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Sprache: |
Englisch |
Erschienen: |
2015transfer abstract |
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Schlagwörter: |
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Umfang: |
9 |
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Übergeordnetes Werk: |
Enthalten in: Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease - Kokkinos, Peter ELSEVIER, 2023, Amsterdam [u.a.] |
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Übergeordnetes Werk: |
volume:46 ; year:2015 ; number:12 ; pages:1129-1137 ; extent:9 |
Links: |
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DOI / URN: |
10.1016/j.mejo.2015.09.021 |
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ELV029376033 |
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520 | |a A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. | ||
520 | |a A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. | ||
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10.1016/j.mejo.2015.09.021 doi GBVA2015023000010.pica (DE-627)ELV029376033 (ELSEVIER)S0026-2692(15)00235-9 DE-627 ger DE-627 rakwb eng 620 620 DE-600 610 VZ 44.85 bkl Codecasa, Lorenzo verfasserin aut Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction 2015transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. Dynamic compact thermal model (DCTM) Elsevier Nonlinear thermal analysis Elsevier Nonlinear model order reduction Elsevier d׳Alessandro, Vincenzo oth Magnani, Alessandro oth Rinaldi, Niccolò oth Enthalten in Elsevier Science Kokkinos, Peter ELSEVIER Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease 2023 Amsterdam [u.a.] (DE-627)ELV009440992 volume:46 year:2015 number:12 pages:1129-1137 extent:9 https://doi.org/10.1016/j.mejo.2015.09.021 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 44.85 Kardiologie Angiologie VZ AR 46 2015 12 1129-1137 9 045F 620 |
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10.1016/j.mejo.2015.09.021 doi GBVA2015023000010.pica (DE-627)ELV029376033 (ELSEVIER)S0026-2692(15)00235-9 DE-627 ger DE-627 rakwb eng 620 620 DE-600 610 VZ 44.85 bkl Codecasa, Lorenzo verfasserin aut Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction 2015transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. Dynamic compact thermal model (DCTM) Elsevier Nonlinear thermal analysis Elsevier Nonlinear model order reduction Elsevier d׳Alessandro, Vincenzo oth Magnani, Alessandro oth Rinaldi, Niccolò oth Enthalten in Elsevier Science Kokkinos, Peter ELSEVIER Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease 2023 Amsterdam [u.a.] (DE-627)ELV009440992 volume:46 year:2015 number:12 pages:1129-1137 extent:9 https://doi.org/10.1016/j.mejo.2015.09.021 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 44.85 Kardiologie Angiologie VZ AR 46 2015 12 1129-1137 9 045F 620 |
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10.1016/j.mejo.2015.09.021 doi GBVA2015023000010.pica (DE-627)ELV029376033 (ELSEVIER)S0026-2692(15)00235-9 DE-627 ger DE-627 rakwb eng 620 620 DE-600 610 VZ 44.85 bkl Codecasa, Lorenzo verfasserin aut Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction 2015transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. Dynamic compact thermal model (DCTM) Elsevier Nonlinear thermal analysis Elsevier Nonlinear model order reduction Elsevier d׳Alessandro, Vincenzo oth Magnani, Alessandro oth Rinaldi, Niccolò oth Enthalten in Elsevier Science Kokkinos, Peter ELSEVIER Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease 2023 Amsterdam [u.a.] (DE-627)ELV009440992 volume:46 year:2015 number:12 pages:1129-1137 extent:9 https://doi.org/10.1016/j.mejo.2015.09.021 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 44.85 Kardiologie Angiologie VZ AR 46 2015 12 1129-1137 9 045F 620 |
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10.1016/j.mejo.2015.09.021 doi GBVA2015023000010.pica (DE-627)ELV029376033 (ELSEVIER)S0026-2692(15)00235-9 DE-627 ger DE-627 rakwb eng 620 620 DE-600 610 VZ 44.85 bkl Codecasa, Lorenzo verfasserin aut Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction 2015transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. Dynamic compact thermal model (DCTM) Elsevier Nonlinear thermal analysis Elsevier Nonlinear model order reduction Elsevier d׳Alessandro, Vincenzo oth Magnani, Alessandro oth Rinaldi, Niccolò oth Enthalten in Elsevier Science Kokkinos, Peter ELSEVIER Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease 2023 Amsterdam [u.a.] (DE-627)ELV009440992 volume:46 year:2015 number:12 pages:1129-1137 extent:9 https://doi.org/10.1016/j.mejo.2015.09.021 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 44.85 Kardiologie Angiologie VZ AR 46 2015 12 1129-1137 9 045F 620 |
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10.1016/j.mejo.2015.09.021 doi GBVA2015023000010.pica (DE-627)ELV029376033 (ELSEVIER)S0026-2692(15)00235-9 DE-627 ger DE-627 rakwb eng 620 620 DE-600 610 VZ 44.85 bkl Codecasa, Lorenzo verfasserin aut Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction 2015transfer abstract 9 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. Dynamic compact thermal model (DCTM) Elsevier Nonlinear thermal analysis Elsevier Nonlinear model order reduction Elsevier d׳Alessandro, Vincenzo oth Magnani, Alessandro oth Rinaldi, Niccolò oth Enthalten in Elsevier Science Kokkinos, Peter ELSEVIER Changes in Cardiorespiratory Fitness and Survival in Patients With or Without Cardiovascular Disease 2023 Amsterdam [u.a.] (DE-627)ELV009440992 volume:46 year:2015 number:12 pages:1129-1137 extent:9 https://doi.org/10.1016/j.mejo.2015.09.021 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 44.85 Kardiologie Angiologie VZ AR 46 2015 12 1129-1137 9 045F 620 |
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Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction |
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A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. |
abstractGer |
A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. |
abstract_unstemmed |
A novel approach for constructing multi-port dynamic compact thermal models of nonlinear heat diffusion in electronic components is presented, extending a technique previously conceived for the one-port case. The approach allows achieving high levels of accuracy even for small state–space dimensions of the model. It is also very efficient since it requires the solutions to a few linear heat diffusion problems in the frequency domain. The multi-port compact models exhibit structure similar to the one-port counterparts and can be used to accurately approximate not only the junction temperatures, but also the whole space–time temperature distribution within the electronic components. |
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title_short |
Structure-preserving approach to multi-port dynamic compact models of nonlinear heat conduction |
url |
https://doi.org/10.1016/j.mejo.2015.09.021 |
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author2 |
d׳Alessandro, Vincenzo Magnani, Alessandro Rinaldi, Niccolò |
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d׳Alessandro, Vincenzo Magnani, Alessandro Rinaldi, Niccolò |
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10.1016/j.mejo.2015.09.021 |
up_date |
2024-07-06T21:17:43.237Z |
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