The Experts below are selected from a list of 15 Experts worldwide ranked by ideXlab platform
Ian C Schipper - One of the best experts on this subject based on the ideXlab platform.
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textural geochemical and Volatile Evidence for a strombolian like eruption sequence at lō ihi seamount hawai i
Journal of Volcanology and Geothermal Research, 2011Co-Authors: Ian C Schipper, James D L White, B F HoughtonAbstract:Abstract Despite recent advances and observations, many questions remain about the range of eruption styles that are possible at submarine volcanoes. We report deposit characteristics, clast microtextures, and geochemical and Volatile data for a ~ 22 m thick pyroclastic succession on the summit plateau of Lō`ihi Seamount, Hawaii, with the goal of determining eruption style directly from features preserved in the submarine deposits. Deposit stratigraphy indicates emplacement of lapilli-dominated ejecta from a nearby vent or series of vents. Lapilli contain heterogeneous vesicle (Nv = 1.6 × 104 to 9.5 × 105 cm− 3) and gradational microlite populations that matured below the vent, before fragmentation. The homogeneous, tholeiitic matrix glasses are degassed of CO2, but retain variable concentrations of dissolved H2O (0.41 to 0.82 wt.%). Olivine crystals are mostly highly magnesian (> Fo88) crystals, bearing inclusions entrapped at ~ 1300 ± 37 °C that suffered post-entrapment Fe-loss in contact with cooler (~ 1136 ± 50 °C) bulk melt over calculated time periods up to ~ 3 months, and a small subset of lower-Mg ( No single data type definitively proves what style of eruption formed this deposit, and each is treated in-turn with realistic discussion of their respective limitations. Textural features indicate Strombolian-like (e.g., episodic) ejection of magma, in pulses that allowed recharging magma to pond and partially cool in the shallow conduit between bursts. Evidence against H2O exsolution between source and vent suggest that the decoupled Volatile slugs driving the eruption(s) must have been dominated by CO2 derived from unerupted magma deeper in Lō`ihi' s plumbing system. This study advances our catalog of analyses for submarine pyroclastic rocks, but also highlights that we are still far from a full understanding of submarine explosive volcanic processes.
Long Chen - One of the best experts on this subject based on the ideXlab platform.
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a method of docker container forensics based on api
International Conference Cryptography Security and Privacy, 2018Co-Authors: Jie Xiang, Long ChenAbstract:As one of the main technologies supporting cloud computing virtualization, Docker is featured in its fast and lightweight virtualization which has been adopted by numerous platform-as-a-service (PaaS) systems, but forensics research for Docker has not been paid the corresponding attention yet. Docker exists to store and distribute illegal information as a carrier for initiating attacks like traditional cloud services. The paper explains Docker service principles and structural features, and analyzing the model and method of forensics in related cloud environment, then proposes a Docker container forensics solution based on the Docker API. In this paper, Docker APIs realize the derivation of the Docker container instances, copying and back-up of the container data volume, extraction of the key Evidence data, such as container log information, configuration information and image information, thus conducts localized fixed forensics to Volatile Evidence and data in the Docker service container. Combined with digital signatures and digital encryption technology to achieve the integrity of the original Evidence data protection.
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ICCSP - A Method of Docker Container Forensics Based on API
Proceedings of the 2nd International Conference on Cryptography Security and Privacy - ICCSP 2018, 2018Co-Authors: Jie Xiang, Long ChenAbstract:As one of the main technologies supporting cloud computing virtualization, Docker is featured in its fast and lightweight virtualization which has been adopted by numerous platform-as-a-service (PaaS) systems, but forensics research for Docker has not been paid the corresponding attention yet. Docker exists to store and distribute illegal information as a carrier for initiating attacks like traditional cloud services. The paper explains Docker service principles and structural features, and analyzing the model and method of forensics in related cloud environment, then proposes a Docker container forensics solution based on the Docker API. In this paper, Docker APIs realize the derivation of the Docker container instances, copying and back-up of the container data volume, extraction of the key Evidence data, such as container log information, configuration information and image information, thus conducts localized fixed forensics to Volatile Evidence and data in the Docker service container. Combined with digital signatures and digital encryption technology to achieve the integrity of the original Evidence data protection.
B F Houghton - One of the best experts on this subject based on the ideXlab platform.
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textural geochemical and Volatile Evidence for a strombolian like eruption sequence at lō ihi seamount hawai i
Journal of Volcanology and Geothermal Research, 2011Co-Authors: Ian C Schipper, James D L White, B F HoughtonAbstract:Abstract Despite recent advances and observations, many questions remain about the range of eruption styles that are possible at submarine volcanoes. We report deposit characteristics, clast microtextures, and geochemical and Volatile data for a ~ 22 m thick pyroclastic succession on the summit plateau of Lō`ihi Seamount, Hawaii, with the goal of determining eruption style directly from features preserved in the submarine deposits. Deposit stratigraphy indicates emplacement of lapilli-dominated ejecta from a nearby vent or series of vents. Lapilli contain heterogeneous vesicle (Nv = 1.6 × 104 to 9.5 × 105 cm− 3) and gradational microlite populations that matured below the vent, before fragmentation. The homogeneous, tholeiitic matrix glasses are degassed of CO2, but retain variable concentrations of dissolved H2O (0.41 to 0.82 wt.%). Olivine crystals are mostly highly magnesian (> Fo88) crystals, bearing inclusions entrapped at ~ 1300 ± 37 °C that suffered post-entrapment Fe-loss in contact with cooler (~ 1136 ± 50 °C) bulk melt over calculated time periods up to ~ 3 months, and a small subset of lower-Mg ( No single data type definitively proves what style of eruption formed this deposit, and each is treated in-turn with realistic discussion of their respective limitations. Textural features indicate Strombolian-like (e.g., episodic) ejection of magma, in pulses that allowed recharging magma to pond and partially cool in the shallow conduit between bursts. Evidence against H2O exsolution between source and vent suggest that the decoupled Volatile slugs driving the eruption(s) must have been dominated by CO2 derived from unerupted magma deeper in Lō`ihi' s plumbing system. This study advances our catalog of analyses for submarine pyroclastic rocks, but also highlights that we are still far from a full understanding of submarine explosive volcanic processes.
Jie Xiang - One of the best experts on this subject based on the ideXlab platform.
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a method of docker container forensics based on api
International Conference Cryptography Security and Privacy, 2018Co-Authors: Jie Xiang, Long ChenAbstract:As one of the main technologies supporting cloud computing virtualization, Docker is featured in its fast and lightweight virtualization which has been adopted by numerous platform-as-a-service (PaaS) systems, but forensics research for Docker has not been paid the corresponding attention yet. Docker exists to store and distribute illegal information as a carrier for initiating attacks like traditional cloud services. The paper explains Docker service principles and structural features, and analyzing the model and method of forensics in related cloud environment, then proposes a Docker container forensics solution based on the Docker API. In this paper, Docker APIs realize the derivation of the Docker container instances, copying and back-up of the container data volume, extraction of the key Evidence data, such as container log information, configuration information and image information, thus conducts localized fixed forensics to Volatile Evidence and data in the Docker service container. Combined with digital signatures and digital encryption technology to achieve the integrity of the original Evidence data protection.
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ICCSP - A Method of Docker Container Forensics Based on API
Proceedings of the 2nd International Conference on Cryptography Security and Privacy - ICCSP 2018, 2018Co-Authors: Jie Xiang, Long ChenAbstract:As one of the main technologies supporting cloud computing virtualization, Docker is featured in its fast and lightweight virtualization which has been adopted by numerous platform-as-a-service (PaaS) systems, but forensics research for Docker has not been paid the corresponding attention yet. Docker exists to store and distribute illegal information as a carrier for initiating attacks like traditional cloud services. The paper explains Docker service principles and structural features, and analyzing the model and method of forensics in related cloud environment, then proposes a Docker container forensics solution based on the Docker API. In this paper, Docker APIs realize the derivation of the Docker container instances, copying and back-up of the container data volume, extraction of the key Evidence data, such as container log information, configuration information and image information, thus conducts localized fixed forensics to Volatile Evidence and data in the Docker service container. Combined with digital signatures and digital encryption technology to achieve the integrity of the original Evidence data protection.
James D L White - One of the best experts on this subject based on the ideXlab platform.
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textural geochemical and Volatile Evidence for a strombolian like eruption sequence at lō ihi seamount hawai i
Journal of Volcanology and Geothermal Research, 2011Co-Authors: Ian C Schipper, James D L White, B F HoughtonAbstract:Abstract Despite recent advances and observations, many questions remain about the range of eruption styles that are possible at submarine volcanoes. We report deposit characteristics, clast microtextures, and geochemical and Volatile data for a ~ 22 m thick pyroclastic succession on the summit plateau of Lō`ihi Seamount, Hawaii, with the goal of determining eruption style directly from features preserved in the submarine deposits. Deposit stratigraphy indicates emplacement of lapilli-dominated ejecta from a nearby vent or series of vents. Lapilli contain heterogeneous vesicle (Nv = 1.6 × 104 to 9.5 × 105 cm− 3) and gradational microlite populations that matured below the vent, before fragmentation. The homogeneous, tholeiitic matrix glasses are degassed of CO2, but retain variable concentrations of dissolved H2O (0.41 to 0.82 wt.%). Olivine crystals are mostly highly magnesian (> Fo88) crystals, bearing inclusions entrapped at ~ 1300 ± 37 °C that suffered post-entrapment Fe-loss in contact with cooler (~ 1136 ± 50 °C) bulk melt over calculated time periods up to ~ 3 months, and a small subset of lower-Mg ( No single data type definitively proves what style of eruption formed this deposit, and each is treated in-turn with realistic discussion of their respective limitations. Textural features indicate Strombolian-like (e.g., episodic) ejection of magma, in pulses that allowed recharging magma to pond and partially cool in the shallow conduit between bursts. Evidence against H2O exsolution between source and vent suggest that the decoupled Volatile slugs driving the eruption(s) must have been dominated by CO2 derived from unerupted magma deeper in Lō`ihi' s plumbing system. This study advances our catalog of analyses for submarine pyroclastic rocks, but also highlights that we are still far from a full understanding of submarine explosive volcanic processes.
