Zobrazeno 1 - 10
of 46
pro vyhledávání: '"Iwai, Masayuki"'
Publikováno v:
International Journal of Computer Networks & Communications (IJCNC) Vol.4, No.1, January (2012) 63-77
Network coding is known as a promising approach to improve wireless network performance. How to discover the coding opportunity in relay nodes is really important for it. There are more coding chances, there are more times it can improve network thro
Externí odkaz:
http://arxiv.org/abs/1205.6445
Publikováno v:
In Pervasive and Mobile Computing June 2013 9(3):421-436
Akademický článek
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Publikováno v:
In Materials Science & Engineering B 2000 75(2):143-148
Autor:
Kinoshita, Kyoichi, Ogata, Yasuyuki, Koshikawa, Naokiyo, Adachi, Satoshi, Yoda, Shinichi, Iwai, Masayuki, Tsuru, Tetsuya, Muramatsu, Yuji
Publikováno v:
International Journal of Materials and Product Technology. 22(1-3):95-104
資料番号: SA1003601000
Autor:
Kinoshita, Kyoichi, Ogata, Yasuyuki, Koshikawa, Naokiyo, Adachi, Satoshi, Iwai, Masayuki, Tsuru, Tetsuya, Muramatsu, Yuji, Sugiki, Yoshihiro, Maekawa, Toru, Yoda, Shinichi
Publikováno v:
宇宙開発事業団技術報告: 化合物半導体研究アニュアルレポート2002:混晶半導体(InGaAs)の結晶育成に及ぼす微小重力の効果に関する研究.均一組成結晶の育成 = NASDA Technical Memorandum: Annual Report of the Semiconductor Team in NASDA Space Utilization Research Program (2002): Effects of Microgravity Environment on Growth Related Properties of Semiconductor Alloys (InGaAs). Growth of Homogeneous Crystals. :19-26
The critical freezing rate for avoiding the constitutional supercooling in the crystal growth of In(x)Ga(1-x)As from its melt has been investigated quantitatively and it is found that the critical freezing rate is between 0.25 and 0.28 mm/h at a temp
Autor:
Kinoshita, Kyoichi, Nakamura, Hirohiko, Hanaue, Yasuhiro, Iwai, Masayuki, Tsuru, Tetsuya, Muramatsu, Yuji, Adachi, Satoshi, Koshikawa, Naokiyo, Yoda, Shinichi
Publikováno v:
宇宙開発事業団技術報告: Annual Report of the Semiconductor Team in NASDA Space Utilization Research Program (2001): Effects of Microgravity Environment on Growth Related Properties of Semiconductor Alloys (InGaAs)-Growth of Homogeneous Crystals = NASDA Technical Memorandum: Annual Report of the Semiconductor Team in NASDA Space Utilization Research Program (2001): Effects of Microgravity Environment on Growth Related Properties of Semiconductor Alloys (I[lc]nG[lc]aA[lc]s)-Growth of Homogeneous Crystals. :11-18
One dimensional TLZ (Traveling Liquidus-Zone) growth model has been developed and the importance of accurate measurements of temperature gradients in the liquidus-zone has been revealed because sample translation rates for growing homogeneous crystal
Publikováno v:
宇宙開発事業団技術報告: Annual Report of the Semiconductor Team in NASDA Space Utilization Research Program (2000): Effects of Microgravity Environment on Growth Related Properties of Semiconductor Alloys (InGaAs). Growth of Homogeneous Crystals = NASDA Technical Memorandum: Annual Report of the Semiconductor Team in NASDA Space Utilization Research Program (2000): Effects of Microgravity Environment on Growth Related Properties of Semiconductor Alloys (InGaAs). Growth of Homogeneous Crystals. :13-17
Newly invented "Traveling Liquidus-Zone" (TLZ) method was applied to grow In(0.3)Ga(0.7)As single crystals. Homogeneous growth conditions were confirmed experimentally though controlling temperature gradient in the liquidus-zone and accurate measurem
Autor:
Kinoshita, Kyoichi, Kato, Hirokazu, Matsumoto, Satoshi, Iwai, Masayuki, Tsuru, Tetsuya, Muramatsu, Yuji, Yoda, Shinichi
Publikováno v:
NASDA Technical Memorandum. :11-14
一様な混合結晶を微小重力下でその溶融体から得る新しい結晶成長法「グレーデッド溶質濃縮法」を開発したが、さらにこの方法を部分溶融法の考えを採用することで発展させ、「濃度
This paper presents the outcome of a formative study - experiences and requirements - on using wireless sensor network technology in retail stores. The study was carried out in several steps. - First, a simple approach to implementing a wireless sens
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::530478adac96f7a56f6b1fdfdd5ced5f
https://leopard.tu-braunschweig.de/servlets/MCRFileNodeServlet/dbbs_derivate_00006346/Gordon-Use_Wireless_Sensor_Networks.pdf
https://leopard.tu-braunschweig.de/servlets/MCRFileNodeServlet/dbbs_derivate_00006346/Gordon-Use_Wireless_Sensor_Networks.pdf