The design of Dreamscape Park, a public park covering an area of 50 rai, is based on the concept of ART. The design focuses on preserving green spaces while enhancing functionality to cater to people of all ages. The park features a landmark in the form of a water pond shaped like a drop of ink and a medium-sized amphitheater for various activities. Additional relaxation areas include a café, chill-out seating, outdoor activity zones, and sports facilities such as a basketball court, a takraw court, and walking/running paths around the park. There are also pet zones, children's play areas, gardens at various points, and accessible pathways throughout the area. Users can enjoy a peaceful environment and engage in activities according to their preferences.
สวนสาธารณะเดิมอาจขาดการบำรุงรักษา ขาดฟังก์ชันที่ตอบโจทย์การใช้งานของคนยุคใหม่ หรือมีการออกแบบที่ไม่รองรับกิจกรรมที่หลากหลาย ส่งผลให้สวนสาธารณะไม่ได้ถูกใช้งานอย่างเต็มศักยภาพ การทำสวนสาธารณะเดิมให้เป็นพื้นที่ใหม่ที่ทันสมัยและตอบสนองความต้องการของผู้ใช้งานจึงเป็นสิ่งจำเป็น การออกแบบครั้งนี้ไม่เพียงมุ่งเน้นการเพิ่มฟังก์ชันการใช้งานและความสวยงาม แต่ยังคำนึงถึงการอนุรักษ์พื้นที่สีเขียว และการสร้างสภาพแวดล้อมที่กระตุ้นให้คนออกมาใช้พื้นที่สาธารณะมากขึ้น โครงการนี้มีความสำคัญเพราะช่วยคืนชีวิตให้กับสวนสาธารณะที่เคยถูกละเลย และเปลี่ยนให้เป็นศูนย์กลางกิจกรรมของชุมชน ไม่ว่าจะเป็นการพักผ่อน ออกกำลังกาย ทำกิจกรรมสร้างสรรค์ หรือพบปะสังสรรค์ นอกจากนี้ การออกแบบใหม่ยังช่วยเสริมสร้างอัตลักษณ์ให้กับพื้นที่ ให้สวนแห่งนี้กลายเป็นแลนด์มาร์กสำคัญที่ดึงดูดผู้คน
คณะวิทยาศาสตร์
This research will begin with a review of literature and related studies to examine existing technologies and methods for hand gesture recognition and their applications in controlling electronic devices such as drones, robots, and gaming systems. Subsequently, a hand gesture recognition system will be designed and developed using machine learning and computer vision techniques, with a focus on creating an algorithm that operates quickly and accurately, making it suitable for real-time control. The developed system will be tested and refined using various simulated scenarios to evaluate its efficiency and accuracy in diverse environments. Additionally, a user-friendly interface will be developed to ensure accessibility for all user groups. The research will also incorporate qualitative studies to gather feedback from both novice users and experts, which will contribute to further system improvements, ensuring it effectively meets user needs. Ultimately, the findings of this research will lead to the development of a functional prototype for gesture-based control, which can be applied in industries and entertainment. This will contribute to advancements in innovation and new technologies in the future.
คณะเทคโนโลยีการเกษตร
The use of chemical herbicides in agriculture has raised concerns due to its adverse effects on farmers' health, environmental sustainability, and consumer safety. Paraquat, a widely used herbicide, has been banned in Thailand. In response to this issue, this research focused on the development of natural herbicide products as an alternative to conventional chemical herbicides. The study involved the extraction of bioactive compounds from selected plants with potential herbicidal properties and evaluating their effectiveness in controlling target weeds. The results indicated that the developed natural herbicide demonstrates significant weed control efficiency. Additionally, this product can be applied to organic farming systems, reducing reliance on hazardous chemicals and promoting sustainable agricultural practices. The development of this natural herbicide served as an essential step toward environmentally friendly and safe agricultural solutions.
คณะเทคโนโลยีการเกษตร
The extreme weathers according to PM 2.5 is a global problem with out any borders. This pollutant can directly attack human health. The objective of the study was aimed to develop medicinal plant essential oil emulsions in order to use to decrease PM 2.5 based on chemical characterization of water-soluble anions and cations. A mount of 31 medicinal plant essential oil emulsions were prepared and then initially careened and tested for their efficiency in reducing PM 2.5 under test chamber by spraying method. It was found that spraying for 1 hr with kaffir lime essential oil emulsion at 0.025% concentration could reduce PM 2.5 obtained from engine exhaust pipe effectively when PM 2.5 of 24.7 µg/m3 was detected within 6 hrs, followed by kaffir lime essential oil emulsion at 0.05% and Eucalyptus essential oil emulsion at 0.05% and 0.025% concentration resulting in 27.3, 30.0 and 95.3 µg/m3, respectively. Whereas, water (blank) and control group (water and carboxymethylcellulose, CMC 0.2%) showed high revels of PM 2.5 with 126.4 and 157.3 µg/m3, respectively. This kaffir lime essential oil emulsion at 0.025% concentration showed 3-6 time decline of PM 2.5 upward 2 hrs compared with control group. Field experiment was performed at 3 Bangkok parks, namely, Suantaweewanarom, Suanbankharepirom and Suanthonbureerom. There were many factors affecting the decline of PM 2.5 caused by this essential oil emulsion, particularly, the windy as well as temperature and humidity. PM 2.5 level tended to be decreased after the beginning of spraying. In general, PM 2.5 levels appeared at those 3 parks were decreased rapidly within 1 hr as by average of 21.8 (7.7-27.3) µg/m3, Whereas, decline of only 6.4 (5.0-8.0) µg/m3 was observed in control (water). Incase of calm wind, (10-20 km/hr) this plant essential oil emulsion could even reduce PM 2.5 at 37.0-44.0 µg/m3 and reached to 13.5-16.5 µg/m3 within 3 hrs. As high level of PM 2.5 as 98.0-101.0 µg/m3 , it could reduce PM 2.5 to be an average of 23.0-26.5 µg/m3 within 3 hrs, Whereas, the use of water performed low capacity of PM 2.5 reduction found with only 31.0-40.0 µg/m3. However, windy condition (15-35 km/hr), the efficacy of this essential oil emulsion seem to be lower but tended to work better than using water alone