Mit Sloan School of Management 2018 - 2019
James Madison University
Bachelors, Bachelor of Business Administration, Computer Information Systems
Skills:
Accessibility Agile Methodologies Program Management Web Applications Web Development User Experience User Interface Requirements Analysis Html Xml Management Software Development Usability Leadership Project Management Software Project Management Usability Testing Agile Project Management Information Architecture Software Engineering Testing Scrum Human Computer Interaction Software Design Java Css Strategy Cascading Style Sheets Cloud Computing W3C Accessibility Accessibility Strategy Mobile Applications Javascript Consulting Strategic Planning Public Speaking User Interface Design Wai Aria Section 508 Web Content Accessibility Guidelines Wcag 2.0 Standards Compliance People Management Integration Enterprise Software Training Research Html5 Social Media Wcag
Interests:
Children Education Environment Disaster and Humanitarian Relief Human Rights
Certifications:
Ibm Design Thinking Practitioner Ibm Blockchain Essentials Ibm Volunteers - Gold
Accessibility Software Development Usability Cloud Computing User Experience Web Development Requirements Analysis Software Project Management Usability Testing Agile Methodologies Information Architecture Human Computer Interaction Agile Project Management Program Management Project Management HTML Software Engineering Software Design Web Applications Java
Us Patents
Using An Alternate User Interface To A Drag And Drop Interface For Rearranging Configurable Web Page Components
BECKY J. GIBSON - WESTFORD MA, US KEVIN E. HICKS - KNIGHTDALE NC, US ANDREW J. LAHART - ARNOLD MD, US DAVID SALINAS - PFLUGERVILLE TX, US MICHAEL A. SQUILLACE - AUSTIN TX, US
Assignee:
INTERNATIONAL BUSINESS MACHINES CORPORATION - ARMONK NY
International Classification:
G06F 3/048
US Classification:
715764
Abstract:
A user interface for repositioning Web page components that includes an HTML table. Each cell of the table can represents a Web page component that is able to be repositioned. Each cell can include an identifier and a user selectable position control. The identifier can identify the Web page component. The user selectable position control can accept user input designating a position of the component within the Web page. An activation control can accept input entered within the user selectable position control when selected. Activation of the activation control can result in the Web page being reconfigured so that the position of the Web page components corresponds to positions specified by the position controls. In one embodiment, the user interface can be an accessibility option for users having difficulty with a drag and drop interface.
Marc K. Johlic - Seminole FL, US Andrew J. LaHart - Arnold MD, US Emi K. Olsson - Germantown NY, US
Assignee:
INTERNATIONAL BUSINESS MACHINES CORPORATION - Armonk NY
International Classification:
G06T 1/00 G09G 5/00
US Classification:
345522, 345629, 345660
Abstract:
Embodiments of the present invention provide an approach to resize (e.g., shrink and/or enlarge) objects in a region of a VU so that additional objects can be accommodated. Specifically, embodiments of the present invention provide a mechanism for a region/room to calculate when it has reached full capacity, and use a configurable multiplier to decrease the size of all objects in the room, including avatars, desks, chairs, tables, etc. This allows for accommodation of a significantly higher quantity of objects within the region. In a typical embodiment, the transition to smaller size would be seamless to the user. Moreover, in one embodiment, if the room is of a certain type (e.g., auditorium), additional objects may be auto-created or deleted based on the number of avatars entering or exiting the room. Still yet, objects can be enlarged as the occupancy falls below the capacity.
- Armonk NY, US Andrew J. LaHart - Arnold MD, US Emi K. Olsson - Germantown NY, US
International Classification:
H04L 29/06 G06F 3/0484 G06F 3/0482
Abstract:
Embodiments of the present invention provide an approach to resize (e.g., shrink and/or enlarge) objects in a region of a VU so that additional objects can be accommodated. Specifically, embodiments of the present invention provide a mechanism for a region/room to calculate when it has reached full capacity, and use a configurable multiplier to decrease the size of all objects in the room, including avatars, desks, chairs, tables, etc. This allows for accommodation of a significantly higher quantity of objects within the region. In a typical embodiment, the transition to smaller size would be seamless to the user. Moreover, in one embodiment, if the room is of a certain type (e.g., auditorium), additional objects may be auto-created or deleted based on the number of avatars entering or exiting the room. Still yet, objects can be enlarged as the occupancy falls below the capacity.