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Mark A Clear

from Snohomish, WA
Age ~53
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Also known as:
Mark Andrew Clear, Mary Clear, Mark Aclear
Phone and address:
20105 59Th St, Snohomish, WA 98290
(360) 568-5425
Related to:
Jimmy ClearCourtney N Clear, 29Jeremiah E Clear, 44Tracey J Clear, 56Duane E Teerink, 49Stefanie D Clear, 41Steven G Clear, 69Mary F Clear, 80Alice T ClearGwenyth A Clear, 69Walter J Clear, 80Gwenyth A Clear, 68Sally J Gorr, 82
Connected to:
Barbara J Clear, 84Dale W Clear, 73Danny L Clear, 71Dean S Clear, 60Edward T Clear, 46Jana T Clear, 36Julee S Clear, 64Kristal Clear, 51Patricia A Clear, 82Rosete K Clear, 67

Mark Clear Phones & Addresses

  • 20105 59Th St, Snohomish, WA 98290 (360) 568-5425
  • 8719 144Th Dr SE, Snohomish, WA 98290 (360) 568-5425
  • 10711 166Th Ave, Redmond, WA 98052 (425) 881-7997
  • Yakima, WA
  • Saint Louis, MO
  • Moab, UT
  • 20105 59Th St SE, Snohomish, WA 98290 (425) 241-0625

Work

Position: Clerical/White Collar

Education

Degree: Associate degree or higher

Emails

m***[email protected]

Resumes

Resumes

Mark Clear Photo 1

Executive Director At Accelerate Madison

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Position:
Executive Director at Accelerate Madison, Alder, District 19 at City of Madison, Principal at Clear Solutions, LLC, Co-Founder & CEO at IMS
Location:
Madison, Wisconsin
Industry:
Nonprofit Organization Management
Work:
Accelerate Madison - Madison, Wisconsin Area since Oct 2012
Executive Director
City of Madison since Apr 2007
Alder, District 19
Clear Solutions, LLC - Madison, Wisconsin Area since Aug 2010
Principal
IMS - Madison, Wisconsin Area since Feb 1995
Co-Founder & CEO
Skills:
Small Business
Email Marketing
CMS
Content Management
Web Content Management
Non-profit Program Development
Event Planning
Event Management
Public Speaking
Digital Trends
Public Policy
Local Government
SMTP
DNS
Public Administration
Political Campaigns
Political Consulting
Mark Clear Photo 2

Mark Clear

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Location:
Redmond, WA
Industry:
Wireless
Skills:
Wireless Networking
Wireless
Miracast
Software Development
Software Project Management
Testing
Wlan
Windows
Ieee 802.11
Wifi
Software Engineering
Mobile Devices
Quality Assurance
Windows Server
Test Automation
Automation
Team Leadership
Agile Methodologies
Software Design
Integration
Enterprise Software
Scrum
Certifications:
Cwna
Mark Clear Photo 3

Mark Clear

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Location:
United States

Business Records

Name / Title
Company / Classification
Phones & Addresses
Mark Clear
Principal
Clear View Cleaning
Repair Services
2801 Bickford Ave, Snohomish, WA 98290

Publications

Wikipedia

DeWayne Buice

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…Buice is one of six pitchers in the Angels' 48-year history to strike out at least 100 batters in a season without starting a game (109 in 1987). The others are Mark Clear (105, 1980), Bryan Harvey (101, 1991), Troy Percival (100, 1996), Scot Shields (109, 2004) and Francisco Rodrguez (123, ...

Mark Clear

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Mark Alan Clear (born May 27, 1956 in Los Angeles, California) is a former Major League Baseball relief pitcher who played for the California Angels (197980, ...

Wikipedia References

Mark Clear Photo 4

Mark Clear

Us Patents

Auto Connect In Peer-To-Peer Network

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US Patent:
20120296986, Nov 22, 2012
Filed:
May 20, 2011
Appl. No.:
13/112883
Inventors:
Amer A. Hassan - Kirkland WA, US
Mitesh K. Desai - Redmond WA, US
Mukund Sankaranarayan - Sammamish WA, US
Henrique Filgueiras - Kirkland WA, US
Mark Clear - Monroe WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06F 15/16
US Classification:
709206
Abstract:
A wireless device that automatically forms a connection to a remote device in accordance with a peer-to-peer protocol. The remote device may be designated as an auto-connect device for the wireless device such that, when the wireless device determines that it is in the vicinity of the auto-connect device, it can re-form a connection to the remote device based on stored information for re-establishing connections among a persistent group of devices, but without any express user input. When a user requests that the wireless device perform a function that involves interaction with an auto-connect device, that function may be performed with the delay associated with forming a connection. Any of multiple techniques may be employed for identifying devices designated as auto-connect devices and for determining when the wireless device and a remote, auto-connect devices are in close proximity.

Wireless Network Interface With Infrastructure And Direct Modes

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US Patent:
20120158839, Jun 21, 2012
Filed:
Dec 16, 2010
Appl. No.:
12/970034
Inventors:
AMER A. HASSAN - Kirkland WA, US
Mitesh K. Desai - Redmond WA, US
Mukund Sankaranarayan - Sammamish WA, US
Henrique Filgueiras - Kirkland WA, US
Mark Clear - Monroe WA, US
Assignee:
Microsoft Corporation - Redmond WA
International Classification:
G06F 15/16
US Classification:
709204
Abstract:
An architecture for a computing device to enable the computing device to support peer-to-peer communications using a wireless radio also configured for infrastructure-based communication. The architecture includes a driver for the wireless radio that supports ports for communication in accordance with the peer-to-peer protocol. A port may act as a control port through which action frames that control the formation of a peer-to-peer group may be sent and received. One or more other ports may be used for exchanging data with other devices in the group. Each of these ports may be configured in accordance with its role in the group, such that each port may be configured for operation as a group owner or a client. Additionally, after establishing a group, the control port may be used as a side channel for controlling a device in a group associated with another port.

Wireless Infrastructure Service

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US Patent:
20180343672, Nov 29, 2018
Filed:
May 25, 2017
Appl. No.:
15/605794
Inventors:
- Redmond WA, US
Bill Verthein - Sammamish WA, US
Mitesh Desai - Sammamish WA, US
Mark Clear - Snohomish WA, US
Peter Fortman - Woodinville WA, US
Assignee:
Microsoft Technology Licensing, LLC - Redmond WA
International Classification:
H04W 74/02
H04W 48/08
H04B 1/38
Abstract:
Systems, apparatus, and methods according to the embodiments allow a wireless network be efficiently managed through activation and/or deactivation of network access points and/or multi-function devices having capability to serve as access points in the wireless network. An apparatus/server may be configured to manage the access points and multi-function devices based on a network database that is updated as multi-function devices are activated and/or deactivated as access point service providers, and as service conditions change within the network. The multi-function devices may comprise devices that are normally used in the network to provide at least one device function other than access point services. For example, the multi-function devices may include devices, such as printers, display monitors, docking devices, laptops, mobile tablets, or mobile phones, which are intended to provide conventional device functions (i.e., printing, displaying, docking, communicating).

Hierarchical Spectrum Coordination

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US Patent:
20180270669, Sep 20, 2018
Filed:
May 16, 2018
Appl. No.:
15/981889
Inventors:
- Redmond WA, US
Mark Clear - Redmond WA, US
International Classification:
H04W 16/14
H04L 27/00
H04L 5/00
Abstract:
Examples disclosed herein relate to efficient hierarchical radio frequency (RF) spectrum assigning across both licensed and unlicensed frequencies in a given area. Wireless devices in the area are detected by a spectrum manager, which also detects all available RF frequencies that are available. Conditional, relative, or absolute RF assignment rules received by an administrator or from an administrative device dictate the allocation conditions for assigning wireless devices to different frequencies, channels, channel widths, bands, durations, or other specifics of the available RF frequencies. Alternatively, RF spectra may be assigned reactively based on the current, historical, or future network usage on the available network frequencies.

Hierarchical Spectrum Coordination

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US Patent:
20170215079, Jul 27, 2017
Filed:
Jan 22, 2016
Appl. No.:
15/004849
Inventors:
- Redmond WA, US
Mark Clear - Redmond WA, US
International Classification:
H04W 16/14
Abstract:
Examples disclosed herein relate to efficient hierarchical radio frequency (RF) spectrum assigning across both licensed and unlicensed frequencies in a given area. Wireless devices in the area are detected by a spectrum manager, which also detects all available RF frequencies that are available. Conditional, relative, or absolute RF assignment rules received by an administrator or from an administrative device dictate the allocation conditions for assigning wireless devices to different frequencies, channels, channel widths, bands, durations, or other specifics of the available RF frequencies. Alternatively, RF spectra may be assigned reactively based on the current, historical, or future network usage on the available network frequencies.

Opportunistic Use Of Spectrum

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US Patent:
20170055200, Feb 23, 2017
Filed:
Aug 19, 2015
Appl. No.:
14/829977
Inventors:
- Redmond WA, US
Mark Clear - Snohomish WA, US
Paul Mitchell - Seattle WA, US
Paul Garnett - Fremont CA, US
Assignee:
MICROSOFT TECHNOLOGY LICENSING, LLC - Redmond WA
International Classification:
H04W 48/14
H04W 4/02
H04W 72/04
Abstract:
Opportunistic use of spectrum is disclosed that allows a device access to a wireless local area network (WLAN) when necessary on a restricted frequency band and provides efficient scanning and switching of device communications to an unrestricted frequency band when channels become available in the unrestricted frequency band. A device operating in the network on the restricted frequency band may receive information on a channel set over a channel in the restricted frequency band. The channel set may be a subset of channels in the network and indicate network channels available for potential use in the unrestricted frequency band. The device may then only scan the subset of channels in the channel set to search for available channels in the unrestricted band. The channel set may be determined by the network based on the operation of the device in the coverage of the restricted frequency band.

Hierarchical Spectrum Offload

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US Patent:
20170026874, Jan 26, 2017
Filed:
Jul 22, 2015
Appl. No.:
14/805683
Inventors:
- Redmond WA, US
Mark Clear - Snohomish WA, US
Peter Fortman - Woodinville WA, US
Assignee:
Microsoft Technology Licensing, LLC - Redmond WA
International Classification:
H04W 28/08
Abstract:
Application data traffic transmitted and received by wireless devices in a network may be mapped to channels based on traffic type and channel metrics. The traffic type may be classified by modality such as by voice, video, application sharing, instant messaging, emergency call, or any other application modality. The channels may be associated with characteristics that include, for example, a frequency band or channel metrics. The traffic types may be prioritized relative to one another and each may be associated with a hierarchical frequency band prioritization or a channel prioritization based on other channel metrics. A list of traffic types or modalities may be mapped to a list of available channels in a network by mapping channel characteristics to modalities based on modality traffic type prioritization, frequency band prioritization or channel metric prioritization. The mapping may then be utilized to control channel assignment for devices operating in the network.
Control profile
Mark A Clear from Snohomish, WA, age ~53 Get Report