Showing 81 - 100 results of 749 for search '((pinnacle OR pinge) OR ((pick OR spinna) OR pin))', query time: 0.12s Refine Results
  1. 81
  2. 82
  3. 83
  4. 84
  5. 85
  6. 86

    Developing a taxonomy of consumer preferences for enhancing B2C e-commerce last-mile delivery: delivered food by Teo, Ee Lin

    Published 2022
    “…By exploring the key factors which influence customers to use self pick-up over door-to-door delivery on OFD platforms in Singapore, suggestions can be made to improve the self pick-up customer experience and encourage its adoption. …”
    Get full text
    Final Year Project (FYP)
  7. 87

    Swimming in Data by Douglass, Katherine, Lamb, Augustus, Lu, Jerry, Ono, Ken, Tenpas, William

    Published 2024
    “…To compete in the Olympics is to have arrived at the pinnacle of one’s sport. It is the realization of a dream shared by the youngest summer league swimmer and the most outstanding professional. …”
    Get full text
    Article
  8. 88

    Design and investigation of air-cooled heat sinks using 3D printing technology by Lim, Ming Chong

    Published 2016
    “…This study presents the heat transfer performance of five pin fin heat sinks that have been fabricated using Selective Laser Melting. …”
    Get full text
    Final Year Project (FYP)
  9. 89

    A proxy-tactile reactive control for robots moving in clutter by Caroleo, G, Giovinazzo, F, Albini, A, Grella, F, Cannata, G, Maiolino, P

    Published 2025
    “…In this paper, we propose a reactive control law that simultaneously utilizes proximity and tactile feedback to perform a pick-and-place task in an unknown and cluttered environment. …”
    Conference item
  10. 90
  11. 91
  12. 92
  13. 93

    Convective boiling and condensation in enhanced tubes produced by selective laser melting by Tan, Choon Yong

    Published 2018
    “…The design of the four tubes are five long circumferential pin fins, eight short circumferential pin fins, twisted pin fins and a metallic foam structure. …”
    Get full text
    Final Year Project (FYP)
  14. 94

    A two-dimensional co-rotational Timoshenko beam element with XFEM formulation by Xu, Jin, Lee, Chi King, Tan, Kang Hai

    Published 2014
    “…Pin connections and plastic hinges produce non-smooth displacement fields in beam structures. …”
    Get full text
    Get full text
    Journal Article
  15. 95

    Design of a mechatronic system using Arduino Uno by Chong, Kok Leong

    Published 2023
    “…Therefore, this Final Year Project (FYP) aims to create a Line-Following robot using Arduino Uno that can autonomously pick up boxes autonomously in a warehouse. By integrating a car chassis with an artificial intelligence (AI) camera, the robot will be able to follow the line path automatically, while the mechanized robot arm can pick up parcels of up to 0.1 KG all while being autonomous. …”
    Get full text
    Final Year Project (FYP)
  16. 96

    Study of heat transfer through micro-structured surfaces by Chin, Wei Hao

    Published 2016
    “…Each chip has a different microstructure in the form of very small and elongated pin-fins, which will in turn affect the critical heat flux of each component. …”
    Get full text
    Final Year Project (FYP)
  17. 97

    Deep learning for object detection and image segmentation by Tan, Yan Hwa

    Published 2020
    “…The aim of this project is to develop an automated solution to allow the robot to pick up the indicated object accurately from a clustered bin in bin-picking. …”
    Get full text
    Final Year Project (FYP)
  18. 98
  19. 99

    Ultrsonic testing of bond integrity in adhesive joints between 2 similar metals by Ang, Marcus

    Published 2017
    “…In the presence of a cohesive bond at the adhesive-adherend interface, the A-scan is able to pick up the adhesive signals during ultrasonic testing. …”
    Get full text
    Final Year Project (FYP)
  20. 100

    Design of wideband low-loss reconfigurable reflectarray antenna by Zhang, Xiran

    Published 2024
    “…It proposes an RRA design that integrates a PIN diode with air gap. The switch of the reconfigurable unit is directly mounted on the reflective element, reducing the loss introduced by the switching device. …”
    Get full text
    Thesis-Master by Coursework