According to an approach for configuring Wi-Fi devices, a wireless access point changes its mode of operation from a normal operating mode to a configuration operating mode to configure one or more Wi-Fi devices. When operating in the configuration operating mode, it is more difficult for an eavesdropper to intercept messages between the wireless access point and the Wi-Fi devices being configured. Upon completion of the configuration process, the wireless access point changes its mode of operation from the configuration operating mode back to the normal operating mode. This approach reduces the likelihood of an eavesdropper intercepting configuration messages exchanged between a wireless access point and one or more Wi-Fi devices during the configuration process. The approach also allows automated configuration of Wi-Fi devices and reduces the amount of user interaction required to configure Wi-Fi devices.
Jeffrey M. Gilbert - Sunnyvale CA, US James Woo - Los Altos CA, US
Assignee:
Qualcomm Atheros, Inc. - San Jose CA
International Classification:
H04L 12/26
US Classification:
370252
Abstract:
Transmission monitoring can be used to determine the optimum data rate for a channel. The transmission monitoring can include sending data packets in the channel using various data rates. At least some data packets are sent using the current optimum data rate, a rate lower than the current optimum data rate, and a rate higher than the current optimum data rate. One of these data rates can be selected as the new optimum data rate. In one embodiment, if the current optimum data rate is less than a predetermined data rate, then the client is triggered to begin scanning for other available access points.
Techniques and systems for automatically configuring devices to interact with “legacy” wireless access points (“WAPs”) are disclosed. According to one technique, a user programs a WPS-enabled WAP with the configuration information of a “legacy” WAP. This makes the WPS-enabled WAP “aware” of the “legacy” WAP. When any other user brings his device within discovery range of the WPS-enabled WAP, the WPS-enabled WAP sends, to that device, a list of the WAPs of which the WPS-enabled WAP is aware. The device's user selects one of the WAPs (e. g. , a “legacy” WAP) from the list. The WPS-enabled WAP receives the user's selection and sends, to the device, the configuration information for the selected WAP. The user's device configures itself, using the configuration information, to interact with the selected WAP. Thereafter, the user's device can access a network through the selected WAP, even if the selected WAP is a “legacy” WAP.
Techniques and systems for allowing a client to interact with a Microsoft Windows Server via a proxy authentication server are disclosed. Instead of engaging in the NTLM authentication protocol with a Microsoft Windows Server directly, a client may interact with a proxy authentication server. The proxy authentication server may perform all of the necessary NTLM interactions with the Microsoft Windows Server. Thus, the proxy authentication server authenticates itself with the Microsoft Windows Server, and acts as the client's agent. Because the client does not directly interact with the Microsoft Windows Server, the client does not need to authenticate itself with the Microsoft Windows Server; instead, after the proxy authentication server authenticates itself with the Microsoft Windows Server, the client can transact the client's business with the Microsoft Windows Server through the authenticated proxy authentication server. The proxy authentication server can act on behalf of multiple different clients in a network.
Remote Management And Network Access Control Of Printing Devices Within Secure Networks
Systems and methods are disclosed for enabling remote management of printing devices and for providing access control of printing devices within secure health policy based networks. A printing device transmits device status information to a status server and operational health information to a compliance server. The compliance server receives a health policy for the network from the status server. The compliance server evaluates the operational health information using the health policy and configures the printing device for operations within a secure portion of the network if the operational health information is in compliance with the health policy.
Approach For Cloud Emr Communication Via A Content Parsing Engine And A Storage Service
An approach provides sending captured Superbill image data and output data generated based on results of parsing the captured Superbill image data to an external system which manages Superbill data via a cloud system and a storage service. The cloud system creates parsing rule data for parsing a captured Superbill image in accordance with user operation at a client device. The cloud system obtains captured Superbill image data from the storage service, in response to receiving a notification indicating that the captured Superbill image data has been stored in the storage service. The cloud system parses the obtained image data based on the created parsing rule and generates output data based on results of parsing. The cloud system sends the generated output data and the obtained image data to the external system via the one or more computer networks.
Approach For Cloud Emr Communication Via A Content Parsing Engine And A Storage Service
An approach provides sending captured Superbill image data and output data generated based on results of parsing the captured Superbill image data to an external system which manages Superbill data via a cloud system and a storage service. The cloud system creates parsing rule data for parsing a captured Superbill image in accordance with user operation at a client device. The cloud system obtains captured Superbill image data from the storage service, in response to receiving a notification indicating that the captured Superbill image data has been stored in the storage service. The cloud system parses the obtained image data based on the created parsing rule and generates output data based on results of parsing. The cloud system sends the generated output data and the obtained image data to the external system via the one or more computer networks.
- Foster City CA, US Brian KLUCK - Foster City CA, US Andrew QUEZADA - Foster City CA, US Robert vonder REITH - Foster City CA, US Chi TRAN - Foster City CA, US James WOO - Foster City CA, US
The present disclosure relates generally to methods of producing, processing, or purifying antibodies. The present disclosure also relates to methods of producing, processing, or purifying a target antibody from cell cultures to remove host cell proteins.
Dr. Woo graduated from the Virginia Commonwealth University SOM in 1990. He works in Wayne, NJ and specializes in Internal Medicine - Geriatrics and Internal Medicine. Dr. Woo is affiliated with Childrens Specialized Hospital and St Josephs Wayne Hospital.
Name / Title
Company / Classification
Phones & Addresses
James Woo Owner/Manager
Bayview Foods Grocers-Retail
3103 W 4th Ave, Vancouver, BC V6K 1R6 (604)7385840
James Woo Manager
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James Woo Owner
Odyssey Value Advisors LLC Investors
601 Montgomery St Ste 1112, San Francisco, CA 94111
James G Woo Chairman
James G Woo Arrangement of Transportation of Freight and ...
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1420 Hampshire St, San Francisco, CA 94110
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601 Montgomery St, San Francisco, CA 94111 (415)9567685
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Forrest Timberlake Inc Nursing Care Facilities
1420 Hampshire St, San Francisco, CA 94110 (415)2857660
James Woo Principal
The Brokeneye Productions Motion Picture/Video Production
14114 Via Alisal, San Diego, CA 92128 (858)7611134