*當集思廣益新研究論文時我可以做什麼事情？ (PART B)
*如何讓我的研究小組成員舉行頭腦思考會議產生新的研究思路？ (PART D)
*學術英文投稿教學影片 (167) Academic publishing
*強有力的動詞 (精確英文寫作) 英文編修訓練 (14 / 14)
*醫療英文論文組織寫作 (9) : (第二部分:行動)
Academic publishing news 學術英文出版新聞
學術英文投稿教學影片 (167) Academic publishing
Automatic Optical Inspection systems (AOI) are the methods for inspecting layers of printed circuit boards during manufacturing production. By scanning PCB panels into the system, AOI can perform a detection of defects and even mark thee defects directly on the panel. However, existing automatic optical inspection (AOI) systems have been proved unreliable due to inevitable human errors as their efficiencies in detecting pattern’s defects of printed circuit boards, especially when circuit becomes finer and pattern inspection by humans take a great deal of time.
Automatic optical inspection systems (AOIs) inspect layers of printed circuit boards during manufacturing. By scanning PCB panels into the system, AOI can detect defects and mark them directly on the panel. However, current AOIs lack the ability to detect pattern defects of printed circuit boards efficiently, especially with the increasing shrinking size of circuits and errors caused in pattern inspection manually owing to the considerable amount of time involved.
Via the comparison results of the peak value of von Mises stress on the BGA tin balls, we found that the optimal design of the PCB with BGA tin balls is using the under-fill glue material. This solution is really effective to strengthen the entire structure of PCB with BGA tin balls. But the side effect is that it will raise the material cost and maintenance cost for a special machine.
Comparing the results of the peak value of von Mises stress on the BGA tin balls reveals that the optimal design of the PCB with BGA tin balls uses the under-fill glue material. Despite strengthening the entire structure of PCB with BGA tin balls effectively, this solution raises material costs and maintenance costs for a customized machine.
研究目標 : 研究的目標 ?
達成目標的方法 : 你的計劃中達成目標的步驟?
希望的結果 : 你希望達成的結果?
研究目標 Based on the above, we should develop a low level dose mode method, capable of accurately predicting the radiation dosage levels in the surrounding environment of a nuclear power plant that could potentially harm humans.
達成目標的方法 To do so, radiation dosage distribution and adverse health impact on neighboring residents can be estimated using the physics dose mode method with simplified calculations of the mean and standard deviation. Biological dose models can then be used to relate the location and biological effects to the controlled exposure factor levels. Next, an optimal combination of process parameters can be obtained using the estimated risk dosage method.
希望的結果 As anticipated, the proposed low level dose mode method can analyze the dosage levels of radiation among neighboring residents of a nearby nuclear power plant. Analysis results of dosage levels inform residents of the health impact of low level radiation, hopefully leading to a lower dose rate and occurrence of cancer.
領域的貢獻 Importantly, the low level dose mode method can enable medical personnel to estimate the radiation dosage distribution among neighboring residents near a nuclear power plant, providing a valuable reference for governmental authorities in establishing legislation to protect inhabitants from unsafe radiation levels.