YOUSEF SABIH L ALSABIH

Innovative User Interface Developer with extensive experience in the design, implementation and advancement of . Highly skilled in and tools, with excellent project management abilities for high-performing UI development.

Talented User Interface Developer with years of experience in management. Proficient in diverse coding and prototyping across varied platforms for robust, well-rounded UI development.

Detail-oriented team player with strong organizational skills. Ability to handle multiple projects simultaneously with a high degree of accuracy. To seek and maintain full-time position that offers professional challenges utilizing interpersonal skills, excellent time management and problem-solving skills. Hardworking and passionate job seeker with strong organizational skills eager to secure entry-level interface manager position. Ready to help team achieve company goals. Organized and dependable candidate successful at managing multiple priorities with a positive attitude. Willingness to take on added responsibilities to meet team goals. Accomplished designer with outstanding interface performance analysis, project modeling and mapping skills. Analyzed, documented and reported challenges affecting interface output. Critical thinker with great analytical background.

n this study, the geographical conditions of Riyadh, Saudi Arabia were analyzed to analyze new and renewable energy resources. In addition, when installing a microgrid network in which the existing power grid and the power obtained from new and renewable power generation are connected, the HOMER (Hybrid Optimization Model for Electric Renewable) program is used to consider the variables of power price, wind speed, solar radiation, and load consumption resource value. Therefore, a stable and economical energy system optimization was designed while maximizing the use of new and renewable energy sources, especially for isolated areas, and the practical applicability of this was considered through simulation. An economic analysis was conducted to configure the optimal microgrid according to the electricity price and average wind speed within the grid.
Assuming that the power grid is isolated due to regional conditions in Saudi Arabia, it was confirmed that supply is possible with a new renewable energy generation system composed of photovoltaic power generation (PV), wind power generation, and ESS (mass storage system).
Assuming that the average solar radiation and average load in Riyadh are constant, the average wind speed is 4.5 m/s, and the price of electricity within the grid is $0.35/kWh, it is economical to use only electricity from the grid, and the price of electricity from the grid is In the case of more than 0.35$/kWh, it was found that it is economical to use the wind generator and battery (ESS) in connection with the grid.
Photovoltaic power generation in this region has infinite potential when calculating input variables linked to average solar radiation and average load change with the HOMER program, and PV power generation cost changes very quickly. It is necessary to configure a microgrid that significantly increases the capacity suitable for each region's characteristics, that is, it is considered necessary to prepare for the fluctuation of electricity price within the grid.

- Wrote a passage for Koreana magazine 11. Volume Issue 3. Fall 2015

- Wrote a passage for Koreana magazine 11. Volume Issue 2. Summer 2015

- Wrote a passage for Koreana magazine 11. Volume Issue 1. Spring 2015

- part time job at KBS world TV Audit and review tasks related to Arabic Translation bureau about Dubai. 2015.4.13~.04.17

- Program shooting: Virtual Trip Healing mobile _DMZ Korea travel deals. 2014.07.7,8

- MC, Arab- Speaking Learners for The Korean Education Conference 2014.03,15

- at KBS world TV & Radio Interview 2013.12.27

- SEOULTECH Newspaper Interview 2013.09.14

- SEOULTECH Newspaper Interview 2010.10.25