| ÀõÅÄ¡¡ÈË¿ | 1451004: M, 2²óÌÜȯɽ | ¸þÀî¡¡¹¯Ç²ÃÆ£¡¡Çî°ì¡¤çÕÉÚ¡¡ÂîºÈ¡¤µ×ÊÝ¡¡¿ÒÇ· |
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title:Creating photometric replica for reproducing appearance of ink painting.
abstract: In order to preserve and exhibit ink paintings, I aim to replicate them with faithful appearance. Technical establishment of replica is needed.Appearance of ink paintings which are written in ink and brash on Japanese paper is dominated by its reflection and transmission.General copying machine is unable to reproduce the transmission.Therefore, I propose a method of simultaneously reproducing reflectance and transmittance of ink paintings by combining multiple sheets of printed paper.In order to acquire relationship between printed patterns and optical properties , I measured the combined multiple sheets of paper with various printed patterns.The proposed method calculates the printing patterns to be combined by referring the relationship.This enables me to create the replica of simultaneously reproducing reflectance and transmittance of ink paintings. language of the presentation: *** Japanese *** ȯɽÂêÌÜ:½ñ²è¤Î¼Á´¶ºÆ¸½¤òÌÜŪ¤È¤·¤¿¸÷³ØŪ¥ì¥×¥ê¥«¤ÎºîÀ® ȯɽ³µÍ×:¶áǯ¡¢Ê¸²½ºâ¤ÎÊݸ¤ÈŸ¼¨¤òÌÜŪ¤Ë¡¢¥ì¥×¥ê¥«ºîÀ®¤Îµ»½Ñ¤Î³ÎΩ¤¬µá¤á¤é¤ì¤Æ¤¤¤ë¡£¸Åʸ½ñ¤Î¤è¤¦¤ËÏ»æ¤ËËϤÈÉ®¤Ç½ñ¤«¤ì¤¿½ñ²è¤Î¼Á´¶¤Ï¡¢È¿¼Í¸÷¤ÈÆ©²á¸÷¤Î£²¤Ä¤«¤é¹½À®¤µ¤ì¤Æ¤¤¤ë¡£°ìÈÌŪ¤ÊÊ£¼Ìµ¡¤Ë¤è¤ëÊ£À½¤Ç¤Ï¡¢½ñ²è¤ÎÆ©²áÀ¤¬ºÆ¸½¤Ç¤¤Ê¤¤¡£¤½¤³¤Ç¡¢°õºþ¤µ¤ì¤¿Ê£¿ô¤Î»æ¤ò½Å¤Í¤ë¤³¤È¤Ë¤è¤ê¡¢È¿¼Í¡¦Æ©²áΨ¤òƱ»þ¤ËºÆ¸½¤¹¤ë¼êË¡¤òÄó°Æ¤¹¤ë¡£¤Þ¤º¡¢Í½¤á»æ¤ËÍÍ¡¹¤Ê¥Ñ¥¿¡¼¥ó¤ò°õºþ¤·¤Æ½Å¤Í¡¢¥Ñ¥¿¡¼¥ó¤ÈÈ¿¼Í¡¦Æ©²áΨ¤È¤Î´Ø·¸¤ò¥Æ¡¼¥Ö¥ë¤È¤·¤ÆµÏ¿¤¹¤ë¡£½ñ²è¤Î·×¬Ãͤ«¤é¥Æ¡¼¥Ö¥ë»²¾È¤Ë¤è¤Ã¤ÆÊ£¿ô¤Î»æ¤Ë¤½¤ì¤¾¤ì°õºþ¤¹¤Ù¤¥Ñ¥¿¡¼¥ó¤ò·èÄꤷ¡¢¤½¤ì¤¾¤ì¤Î°õºþʪ¤òŽ¤ê¹ç¤ï¤»¤ë¡£¤³¤ì¤Ë¤è¤ê½ñ²è¤ÎÈ¿¼Í¡¦Æ©²áΨ¤òƱ»þ¤ËºÆ¸½¤Ç¤¤ë¥ì¥×¥ê¥«¤ÎºîÀ®¤ò¼Â¸½¤·¤¿¡£ | ||
| Àи¶¡¡°ª | 1451008: M, 2²óÌÜȯɽ | ¸þÀî¡¡¹¯Ç²ÃÆ£¡¡Çî°ì¡¤çÕÉÚ¡¡ÂîºÈ¡¤µ×ÊÝ¡¡¿ÒÇ· |
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title: Individual image projection onto layered multi-screens by generating 4D light field
abstract: We propose a method to generate the 4D light field, which enables to project different images onto layered multiple screens with projector array.When the light rays emitted from the projectors pass through the layered screens, each layer has unique combination of light rays depending on its distance from the projectors.As a result, the images appeared on each screen are formulated by the sum of the light rays emitted from each projector.Since generating a light ray with negative intensity is difficult, there is no guarantee to display arbitrary image on each screen. Thus we explore a method of adjusting the images so as to be reconstructed by only taking the sum of the light rays. We also take into account human perception on the adjustment. language of the presentation: Japanese ȯɽÂêÌÜ: £´¼¡¸µ¸÷Àþ¶õ´ÖÀ¸À®¤Ë¤è¤ë ¿½Å¥¹¥¯¥ê¡¼¥ó¤Ø¤Î¸ÄÊ̾ðÊóÄó¼¨ È¯É½³µÍ×: Ëܸ¦µæ¤Ç¤Ï¡¤Ê£¿ô¤Î¥×¥í¥¸¥§¥¯¥¿¤òÍѤ¤¤Æ£´¼¡¸µ¸÷Àþ¶õ´Ö¤òÀ¸À®¤¹¤ë¼êË¡¤òÄó°Æ¤·¡¤¤³¤ì¤Ë¤è¤êÊ£¿ô¤ÎǤ°Õ¤Îµ÷Î¥¤Ë¤ª¤¤¤Æ¤½¤ì¤¾¤ì°Û¤Ê¤ë²èÁü¤ÎÅê±Æ¤ò¼Â¸½¤¹¤ë¡¥ Ê£¿ô¤Î¥×¥í¥¸¥§¥¯¥¿¤«¤éȯ¤»¤é¤ì¤¿¸÷Àþ¤¬¥¹¥¯¥ê¡¼¥ó¤òÄ̲᤹¤ë¤È¤¡¤³Æ¥¹¥¯¥ê¡¼¥ó¾å¤Ç¤Ï¥×¥í¥¸¥§¥¯¥¿¤«¤é¤Îµ÷Î¥¤Ë±þ¤¸¤Æ¸Çͤθ÷Àþ¤ÎÁȤ߹ç¤ï¤»¤Ë¤Ê¤ë¡¥ ¤½¤Î·ë²Ì¡¤³Æ¥¹¥¯¥ê¡¼¥ó¾å¤Ë±Ç¤·½Ð¤µ¤ì¤ë²èÁü¤Ï³Æ¥×¥í¥¸¥§¥¯¥¿¤«¤éȯ¤»¤é¤ì¤ë¸÷Àþ¤ÎϤˤè¤Ã¤ÆÄê¼°²½¤¹¤ë¤³¤È¤¬¤Ç¤¤ë¡¥¤¿¤À¤·¡¤Éé¤Î¶¯ÅÙ¤ò¤â¤Ä¸÷Àþ¤òºî¤ê½Ð¤¹¤³¤È¤ÏÆñ¤·¤¤¤¿¤á¡¤³Æ¥¹¥¯¥ê¡¼¥ó¾å¤ËǤ°Õ¤Î²èÁü¤ò±Ç¤·½Ð¤»¤ëÊݾã¤Ï¤Ê¤¤¡¥¤½¤³¤Ç¡¤¸÷Àþ¤ÎϤÀ¤±¤Ç²èÁü¤òɽ¼¨¤Ç¤¤ë¤è¤¦¤Ë¿Í´Ö¤ÎÃγФò¹Íθ¤·¤¿²èÁü¤òÄ´À°¤¹¤ë¼êË¡¤Ë¤Ä¤¤¤Æ¸¡Æ¤¤¹¤ë¡¥ | ||
| Ê¿ÅÄ¡¡Âë»Ö | 1451087: M, 2²óÌÜȯɽ | ¾®³Þ¸¶¡¡»Ê¡¤²ÃÆ£¡¡Çî°ì¡¤¹â¾¾¡¡½ß¡¤µÈÀî¡¡²íÇî |
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title: Viewpoint planning for mobile robots to handle occlusion
abstract: Object recognition is a difficult task in computer vision. However, a mobile robot equipped with a camera has the capability of moving around for alleviating effect of occlusion. In this research, we propose a method for planning viewpoints to alleviate effect of occlusion by learning hidden pattern corresponding to the freedom of movement of the robot. language of the presentation: Japanese ȯɽÂêÌÜ: ±£¤ì¤ò°·¤¦¤¿¤á¤Î°ÜÆ°¥í¥Ü¥Ã¥È¤Î¤¿¤á¤Î»ëÅÀ·×²èË¡ ȯɽ³µÍ×: ʪÂÎǧ¼±¤ò¹Ô¤¦¤¦¤¨¤Ç¡¤¥ª¥¯¥ë¡¼¥¸¥ç¥ó¤Ïº¤Æñ¤Ê²ÝÂê¤È¤Ê¤Ã¤Æ¤¤¤ë¡¥¤·¤«¤·¤Ê¤¬¤é¡¤¥«¥á¥é¤òÅëºÜ¤·¤¿°ÜÆ°¥í¥Ü¥Ã¥È¤ÇʪÂÎǧ¼±¤ò¹Ô¤¦ºÝ¤Ë¤Ï¡¤°ÜÆ°¤Ë¤è¤ë²ó¤ê¹þ¤ßÅù¤Ë¤è¤Ã¤Æ¥ª¥¯¥ë¡¼¥¸¥ç¥ó¤ò·Ú¸º¡¦²ò¾Ã¤Ç¤¤ë¡¥Ëܸ¦µæ¤Ç¤Ï¡¤¥í¥Ü¥Ã¥È¤Î°ÜÆ°¼«Í³Å٤˱þ¤¸¤¿±£¤ì¥Ñ¥¿¡¼¥ó¤ò³Ø½¬¤·¡¤¥ª¥¯¥ë¡¼¥¸¥ç¥ó¤Î·Ú¸º¡¦²ò¾Ã¤¬¸«¹þ¤Þ¤ì¤ë¼¡»ëÅÀ¤Ø¤Î»ëÅÀ·×²èË¡¤òÄó°Æ¤¹¤ë¡¥ | ||
| ÃæÀºͺ | 1461007: D, Ãæ´Öȯɽ | ¾¾ËÜ¡¡·ò°ì¡¤º´Æ£¡¡²Å¿¡¤ÌçÅÄ¡¡¶Ç¿Í |
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title: Quantifying the Difficulty of Program Comprehension Using Brain Measurement
abstract: Program comprehension is a necessary activity in today's software development processes such as coding and debugging, while it is very difficult to know whether a programmer is having difficulty in program comprehension or not, because it is a mental (cognitive) process performed inside the human brain. This study employes brain measurement to detect developers who face difficulty during program comprehension and to quantify how difficult it is. I conduct an experiment which observes 20 participants' brain activation during reading of program which has difference level of difficulty. After excluding 3 result from participants who cannot finish the experiment, we found that (1) 16 of 17 participants shows strong brain activation during reading of difficult program and (2) participants' subjective evaluation of difficulty after experiment is correlated with brain activation. Current problem of my research is about external validation because we made a difficult program by obfuscating only the control flow of simple program. Thus our future plan is to confirm equal result with various kinds of difficulty other than control flow complexity. language of the presentation: Japanese | ||
| º´²ÅÅÄ¡¡ÃÒÇ· | 1451052: M, 2²óÌÜȯɽ | ³Þ¸¶¡¡Àµ¼£¡¤ÃÓÅÄ¡¡Ï»ʡ¤ºûÉô¡¡¾»¹° |
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title: Multi-Server Queue with Job Service Time Depending on a Background Process
abstract: One of approaches to reducing energy consumption in a data center is to power down a group of servers. In this paper, we consider a power management scheme for distributed parallel processing over clusters of servers, where part of servers in each cluster are turned off in power-saving mode. We model the system as a multi-server queue in which the service time of a job depends on the state of a background process at the beginning of the job service. We analyze the joint distribution of the number of jobs in system and the state of the background process, deriving the mean job-response time and mean amount of energy consumption. In numerical examples, we investigate how the mean job-response time and energy consumption are affected by energy saving level and the number of clusters. language of the presentation: Japanese ȯɽÂêÌÜ: ¥µ¡¼¥Ó¥¹¼õÉÕ»þ¤ÎÇظå²áÄø¤Ë°Í¸¤·¤¿¥µ¡¼¥Ó¥¹»þ´Ö¤ò¤â¤ÄÊ£¿ô¥µ¡¼¥ÐÂÔ¤Á¹ÔÎó ȯɽ³µÍ×: ¥Ç¡¼¥¿¥»¥ó¥¿¡¼¤Î¾ÃÈñÅÅÎÏÎ̤òºï¸º¤¹¤ë¼êÃʤΰì¤Ä¤Ë¡¤¥Ç¡¼¥¿¥»¥ó¥¿¡¼ÆâÉô¤Î²¹Å٤䥸¥ç¥Ö¤ÎÅþÃå¾õ¶·¤Ë±þ¤¸¤Æ°ìÉô¤Î¥µ¡¼¥Ð·²¤ÎÅŸ»¤òÍî¤È¤¹¥µ¡¼¥Ð´ÉÍýË¡¤¬¤¢¤ë¡¥ËܹƤǤϤ³¤Î¤è¤¦¤ÊÉôʬŪ¤ËÅŸ»¤¬¥ª¥Õ¤Ë¤µ¤ì¤¿¥µ¡¼¥Ð·²¤Çʬ»¶ÊÂÎó½èÍý¤ò¹Ô¤¦¾õ¶·¤òɽ¸½¤Ç¤¤ëÊ£¿ô¥µ¡¼¥ÐÂÔ¤Á¹ÔÎó¥â¥Ç¥ë¤òÄó°Æ¤¹¤ë¡¥¶ñÂÎŪ¤Ë¤Ï¡¤µÒ¤Î¥µ¡¼¥Ó¥¹»þ´Ö¤¬¥µ¡¼¥Ó¥¹³«»ÏľÁ°¤ÎÇظå²áÄø¤Ë°Í¸¤¹¤ëÊ£¿ô¥µ¡¼¥ÐÂÔ¤Á¹ÔÎó¤ò¹Í¤¨¡¤·ÏÆâµÒ¿ôʬÉÛ¤ÈÇظå²áÄø¾õÂ֤ηë¹çʬÉÛ¤ò¹ÔÎó²òÀÏË¡¤Ë¤è¤êƳ½Ð¤¹¤ë¡¥¿ôÃÍÎã¤Ç¤Ï¡¤Çظå²áÄø¤Î¿ä°ÜΨ¤ä¥µ¡¼¥Ó¥¹Î¨¤¬µÒ¤ÎÊ¿¶ÑÂں߻þ´Ö¤ËÍ¿¤¨¤ë±Æ¶Á¤òÄêÎÌŪ¤Ëɾ²Á¤¹¤ë¡¥ | ||
| ±àÅÄ¡¡¹¸¸Ê | 1451062: M, 2²óÌÜȯɽ | ³Þ¸¶¡¡Àµ¼£¡¤ÃÓÅÄ¡¡Ï»ʡ¤ºûÉô¡¡¾»¹°¡¤À¡¡½ã |
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title: Variable Ordering Algorithms for Binary Decision Diagram by Edge Set Clustering
abstract: In the generation process of Binary Decision Diagram (BDD), which expresses a family of edge sets, that satisfies some certain condition, it is known that the size of BDD is different if the variable order is different. In this presentation, we propose some method to make the size of BDD smaller by changing variable ordering based on edge set clustering. We also carried out numerical experiments to show the performances of these methods. language of the presentation: Japanese ȯɽÂêÌÜ: ÊÕ½¸¹ç¥¯¥é¥¹¥¿¥ê¥ó¥°¤òÍѤ¤¤¿Æóʬ·èÄꥰ¥é¥Õ¤ÎÊÑ¿ô½ç½øÉÕ¤±¥¢¥ë¥´¥ê¥º¥à ȯɽ³µÍ×: ¥°¥é¥Õ¾å¤Î¤¢¤ë¾ò·ï¤òËþ¤¿¤¹ÊÕ½¸¹ç²¤òɽ¤¹Æóʬ·èÄꥰ¥é¥Õ¡ÊBDD¡Ë¤ÎÀ¸À®²áÄø¤Ë¤ª¤¤¤Æ¡¢ÊÑ¿ô½ç½ø¤¬°Û¤Ê¤ë¤È¡¢Â礤µ¤¬°Û¤Ê¤ë¤³¤È¤¬ÃΤé¤ì¤Æ¤¤¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢ÊÕ½¸¹ç¥¯¥é¥¹¥¿¥ê¥ó¥°¤òÍѤ¤¤¿ÊÑ¿ô½ç½øÉÕ¤±¤ò¹Ô¤¦¤³¤È¤Ç¡¢À¸À®¤¹¤ëÆóʬ·èÄꥰ¥é¥Õ¤ÎÂ礤µ¤ò¾®¤µ¤¯¤¹¤ë¼êË¡¤òÄó°Æ¤¹¤ë¡£¤Þ¤¿¤½¤Î¼êË¡¤Î¸ú²Ì¤ò¼Â¾Ú¤¹¤ë¡£ | ||
| ÅÏî´¡¡Âöϯ | 1561021: D, Ãæ´Öȯɽ | ¶âë¡¡½Åɧ¡¤³Þ¸¶¡¡Àµ¼£¡¤MD.ALTAF-UL-AMIN¡¤¿ù±º¡¡ÃéÃË¡¤º´Æ£ ůÂç |
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title: Development of a quantitative monitoring system for medical
equipment used in respiratory therapy
abstract: Respiration therapy is applied to a patient with respiratory insufficiency in order to regain the patient's pulmonary function. The medical treatment regimen depends on the condition of the disease, and therefore many types of equipment are existing and used in the therapy. However, equipment used in the therapy is handled by the patients themselves in most cases, and thus it is difficult to monitor the treatment results quantitatively and objectively. Wrong usage of the equipment not only leads to an insufficient effect of the treatment, but also may take a turn for the worse. In addition, it may cause medical incidents by human errors. In this study, we are developing a quantitative monitoring system for the medical equipment used in the respiratory therapy. The system consists of several sensors, and it enables monitoring the device usage and the treatment result quantitatively and objectively. The developed system may help the medical staffs to grasp the patient's situation, and also it will be useful for planning more effective and safe medical treatment regimen. language of the presentation: Japanese ȯɽÂêÌÜ: ¸ÆµÛÎÅË¡¤ËÍѤ¤¤ë°åÎŵ¡´ï¤ÎÄêÎÌŪµÒ´ÑŪ¬Äêɾ²Á¥·¥¹¥Æ¥à¤Î³«È¯¸¦µæ ȯɽ³µÍ×: ¸ÆµÛÎÅË¡¤È¤Ï¡¢¸ÆµÛÉÔÁ´´µ¼Ô¤ÎÇÙµ¡Ç½¤Î²þÁ±¤ä²óÉü¤òÌÜŪ¤È¤·¤¿¼£ÎÅ ¤ä±¿Æ°¤Î¤³¤È¤Ç¤¢¤ê¡¢¼£ÎÅÆâÍƤÏ¿ÍͤÇ¿¼ï¤Î°åÎŵ¡´ï¤ò»ÈÍѤ·¤Æ¤¤¤ë¡£¤½¤ÎºÝ¡¢ °åÎŵ¡´ï¤Î»ÈÍѤä¬Äꡦ·ë²Ì¤Ë¤Ä¤¤¤Æ¤Ï´µ¼Ô¼«¿È¤¬¼Â»Ü¤·¤Æ¤ª¤ê¡¢ÄêÎÌŪµÒ´ÑŪ ¤Ê¬Äꡦɾ²Á¤Ïº¤Æñ¤Ç¤¢¤ë¡£¸í¤Ã¤¿»ÈÍÑÊýË¡¤Ç¤Ï´üÂÔ¤µ¤ì¤ë¼£ÎŸú²Ì¤¬¸½¤ì¤º¡¢ ¤µ¤é¤Ë¤Ï¾É¾õ¤¬Áý°¤¹¤ë´í¸±À¤¬¤¢¤ë¡£¤Þ¤¿¥Ò¥å¡¼¥Þ¥ó¥¨¥é¡¼¤Ë¤è¤ë°åÎÅ»ö¸Î¤¬ À¸¤¸¤ë²ÄǽÀ¤â¤¢¤ë¡£Ëܸ¦µæ¤Ç¤Ï¡¢¸ÆµÛÎÅË¡¤Ë»ÈÍѤµ¤ì¤ë°åÎŵ¡´ï¤Î»ÈÍÑÊýË¡¤ä ¬Äꡦ·ë²Ì¤ËÂФ·¡¢¥»¥ó¥µ¤Ê¤É¤òÍѤ¤¤ÆµÒ´ÑŪ¤Ëɾ²Á¤Ç¤¤ë¥·¥¹¥Æ¥à¤ò¹½ÃÛ¤¹¤ë¡£ ¤³¤ì¤Ë¤è¤ê¡¢°åÎŽ¾»ö¼Ô¤¬Àµ³Î¤Ë¸½¾õ¤òÇÄ°®¤¹¤ë¤³¤È¤¬²Äǽ¤È¤Ê¤ê¡¢¸ÆµÛÎÅË¡¤Î °ÂÁ´À¤ò¹â¤á¸ú²ÌŪ¤Ê¼£ÎŤˤĤʤ¬¤ë¼£ÎŻؿˤòÄ󼨤Ǥ¤ë¡£ | ||