公开(公告)号：US20120188197A1

公开(公告)日：2012-07-26

申请号：US13205319

申请日：2011-08-08

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov ,  Andrey B. Batchvarov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov ,  Andrey B. Batchvarov

IPC分类号： G06F3/044 ,  G06F3/041

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.

摘要翻译： 描述了触摸屏测试技术。 在一个或多个实现中，一片导体（例如，金属）被定位成接近触摸屏设备，并且通过模拟用户的触摸来测试触摸屏设备。 该技术可以用于执行触摸屏设备的各种不同的测试，例如测试延迟和概率等待时间。 还描述了附加技术，包括接触几何测试技术。

公开(公告)号：US09030437B2

公开(公告)日：2015-05-12

申请号：US13205319

申请日：2011-08-08

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov ,  Andrey B. Batchvarov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov ,  Andrey B. Batchvarov

IPC分类号： G06F3/045 ,  G06F3/041 ,  G06F3/044

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.

摘要翻译： 描述了触摸屏测试技术。 在一个或多个实现中，一片导体（例如，金属）被定位成接近触摸屏设备，并且通过模拟用户的触摸来测试触摸屏设备。 该技术可以用于执行触摸屏设备的各种不同的测试，例如测试延迟和概率等待时间。 还描述了附加技术，包括接触几何测试技术。

公开(公告)号：US20110184910A1

公开(公告)日：2011-07-28

申请号：US12847170

申请日：2010-07-30

申请人： Joel Michael Love ,  Daniel Joseph Moore ,  Elliot Lawrence Gould ,  Laurence G. Walker ,  Timothy Allen Wright

发明人： Joel Michael Love ,  Daniel Joseph Moore ,  Elliot Lawrence Gould ,  Laurence G. Walker ,  Timothy Allen Wright

IPC分类号： G06F17/30 ,  G06F7/00

CPC分类号： G06F17/30551 ,  G06F17/30893

摘要： A method that builds a chain-of-custody for archived data is disclosed to ensure the integrity and reliability of the archived data. In one implementation, by using a certified Time Stamp Authority (TSA), an indelible record of each time the archived data is touched (e.g. created, stored, retrieved, accessed, tested, moved, or transformed) is generated to build verifiable links between events to ensure the custody of the data can be audited and verified that it has remained intact throughout its lifetime. The chain-of-custody, in combination with the storage architecture that ensures archive data has not changed through various software and hardware means (e.g., multiple hash signatures to ensure integrity, timestamp authorities to pinpoint each time the archived data was touched, location information to pinpoint physical location, and coordinated chain of custody on multiple replicas of the digital artifact) validates that the archived data has not changed since it was archived.

摘要翻译： 披露了一种构建存档数据链的方法，以确保归档数据的完整性和可靠性。 在一个实施中，通过使用认证的时间戳管理局（TSA），生成每次存档归档数据被触摸（例如，创建，存储，检索，访问，测试，移动或转换）的不可磨灭的记录，以构建可验证的时间戳 确保数据保管的事件可以经过审计和验证，在整个生命周期内保持不变。 监管链结合存储架构，确保归档数据没有通过各种软件和硬件手段（例如，多个哈希签名来确保完整性，时间戳权限每次归档数据被触摸时精确定位），位置信息 精确定位物理位置，以及数字工件的多个副本的协调监管链）验证归档数据自归档以来没有更改。

公开(公告)号：US09122729B2

公开(公告)日：2015-09-01

申请号：US12847170

申请日：2010-07-30

申请人： Joel Michael Love ,  Daniel Joseph Moore ,  Elliot Lawrence Gould ,  Laurence G. Walker ,  Timothy Allen Wright

发明人： Joel Michael Love ,  Daniel Joseph Moore ,  Elliot Lawrence Gould ,  Laurence G. Walker ,  Timothy Allen Wright

IPC分类号： G06F17/00 ,  G06F17/30

CPC分类号： G06F17/30551 ,  G06F17/30893

摘要： A method that builds a chain-of-custody for archived data is disclosed to ensure the integrity and reliability of the archived data. In one implementation, by using a certified Time Stamp Authority (TSA), an indelible record of each time the archived data is touched (e.g. created, stored, retrieved, accessed, tested, moved, or transformed) is generated to build verifiable links between events to ensure the custody of the data can be audited and verified that it has remained intact throughout its lifetime. The chain-of-custody, in combination with the storage architecture that ensures archive data has not changed through various software and hardware means (e.g., multiple hash signatures to ensure integrity, timestamp authorities to pinpoint each time the archived data was touched, location information to pinpoint physical location, and coordinated chain of custody on multiple replicas of the digital artifact) validates that the archived data has not changed since it was archived.

摘要翻译： 披露了一种构建存档数据链的方法，以确保归档数据的完整性和可靠性。 在一个实施中，通过使用认证的时间戳管理局（TSA），生成每次存档归档数据被触摸（例如，创建，存储，检索，访问，测试，移动或转换）的不可磨灭的记录，以构建可验证的时间戳 确保数据保管的事件可以经过审计和验证，在整个生命周期内保持不变。 监管链结合存储架构，确保归档数据没有通过各种软件和硬件手段（例如，多个哈希签名来确保完整性，时间戳权限每次归档数据被触摸时精确定位），位置信息 精确定位物理位置，以及数字工件的多个副本的协调监管链）验证归档数据自归档以来没有更改。

公开(公告)号：US20120191394A1

公开(公告)日：2012-07-26

申请号：US13198415

申请日：2011-08-04

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

IPC分类号： G06F19/00

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.

摘要翻译： 描述了触摸屏测试技术。 在一个或多个实现中，一片导体（例如，金属）被定位成接近触摸屏设备，并且通过模拟用户的触摸来测试触摸屏设备。 该技术可以用于执行触摸屏设备的各种不同的测试，例如测试延迟和概率等待时间。 还描述了附加技术，包括接触几何测试技术。

公开(公告)号：US08725443B2

公开(公告)日：2014-05-13

申请号：US13198415

申请日：2011-08-04

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

IPC分类号： G01R25/00

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.

摘要翻译： 描述了触摸屏测试技术。 在一个或多个实现中，一片导体（例如，金属）被定位成接近触摸屏设备，并且通过模拟用户的触摸来测试触摸屏设备。 该技术可以用于执行触摸屏设备的各种不同的测试，例如测试延迟和概率等待时间。 还描述了附加技术，包括接触几何测试技术。

公开(公告)号：US20120188176A1

公开(公告)日：2012-07-26

申请号：US13198036

申请日：2011-08-04

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

IPC分类号： G06F3/041

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.

摘要翻译： 描述了触摸屏测试技术。 在一个或多个实现中，一片导体（例如，金属）被定位成接近触摸屏设备，并且通过模拟用户的触摸来测试触摸屏设备。 该技术可以用于执行触摸屏设备的各种不同的测试，例如测试延迟和概率等待时间。 还描述了附加技术，包括接触几何测试技术。

公开(公告)号：US09965094B2

公开(公告)日：2018-05-08

申请号：US13198036

申请日：2011-08-04

申请人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

发明人： Aleksandar Uzelac ,  David A. Stevens ,  Weidong Zhao ,  Takahiro Shigemitsu ,  Briggs A. Willoughby ,  John Graham Pierce ,  Pravin Kumar Santiago ,  Craig S. Ranta ,  Timothy Allen Wright ,  Jeffrey C. Maier ,  Robert T. Perry ,  Stanimir Naskov Kirilov

IPC分类号： G06F3/041 ,  G06F11/22 ,  G06F3/044

CPC分类号： G06F3/0418 ,  G06F3/044 ,  G06F11/2221

摘要： Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different testing of a touchscreen device, such as to test latency and probabilistic latency. Additional techniques are also described including contact geometry testing techniques.