¿­·¢Æì½¢Ìü(Öйú)

¡ª Éú̬ ¡¤ Å©Òµ ¡¤ ½¡¿µ ¡ª
¹ú¼ÊºÏ×÷(Partners)
¶¯ÎïÊÓƵ¸ú×ÙºÍÐÐΪ·ÖÎöϵͳ

ʱ¼ä£º2022-09-26

×÷Õߣº¿­·¢Æì½¢Ìü(Öйú)

µã»÷Á¿£º

¼ò½é£º

¿­·¢Æì½¢Ìü(Öйú)

  ¶¯ÎïÊÓƵ¸ú×ÙºÍÐÐΪ·ÖÎöϵͳÓɸ߷ֱæÂʸß֡Ƶ¹¤ÒµÏà»ú¡¢×¨Òµ¶¯ÎïÐÐΪ²É¼¯¼°·ÖÎöÈí¼þ¡¢ºìÍâ±³¹â°åµÈ×é³É£¬ÎÞÐè±ê¼Ç¼´¿É¶ÔÓãÀà¡¢À¥³æ¡¢²¸È鶯Îï¡¢ÄñÀàµÄÐÐΪ½øÐзÖÎö¡£Ê¹ÓÃʱ¿ÉÖ±½ÓʹÓÃÈí¼þ¼ÖƸßÖÊÁ¿µÄ¶¯Îï»î¶¯ÊÓƵ²¢¶ÔÊÓƵÖеÄÄ¿±ê¶¯Îï½øÐÐʶ±ð¸ú×Ù£¬»ñµÃÄ¿±ê¶¯ÎïµÄλÖÃ×ø±ê£¨X×ø±êºÍY×ø±ê£»µ¥¸ö¶¯Îï¿É×ö3D¸ú×Ù£¬¼´°üÀ¨XYZ×ø±ê£©¼°Ëæʱ¼ä±ä»¯µÄ»î¶¯¹ì¼£¡£ÏµÍ³¿É×Ô¶¯¼ÆËã¸öÌå¡¢´¦Àí×é¡¢¸ÐÐËȤÇøÓòÏà¹ØµÄ20ÓàÖÖÐÐΪ²ÎÊý£¬²¢¿Éµ¼³öµþ¼Ó·ÖÎöÊý¾ÝµÄͼÏñºÍÊÓƵÒÔ±ãÓÚʹÓÃÕß½øÐÐչʾ¡£

¹¦ÄÜÌصã

  • ²ÉÓù¤ÒµÏà»ú£¬¸ß·Ö±æÂÊ¡¢¸ß֡Ƶ¡¢³¬¸ßËÙ´«Êä
  • ¿É¸ú×ٺͷÖÎöÓãÀà¡¢À¥³æ¡¢²¸È鶯Îï¡¢ÄñÀ༰¸ü¶à
  • »ùÓڶԱȶȻòÕß±³¾°¼õ³ý·¨·¢ÏÖÄ¿±ê£¬ÎÞÐè±ê¼ÇÎï
  • ¿É¸ú×ÙÈÎÒâ´óСºÍÐÎ×´µÄÇøÓò£¬ÈçÃÔ¹¬¡¢Ë®Ïä¡¢ºôÎüÊÒ
  • ¶Ô24¿×°å¡¢48¿×°å¡¢96¿×°å½øÐиßͨÁ¿¸ú×ٺͷÖÎö
  • 3D¸ú×Ù£¬¿Éµ¼³ö3D×ø±êºÍ·¾¶
  • ¿É½áºÏÓÎÓ¾ÒÇ¡¢Ö²Èëʽ¶¯ÎïÌåÎÂÐÄÂÊÊý¾Ý²É¼¯Æ÷µÈÉ豸ʹÓÃ

ϵͳÅäÖÃ

  • 1²ÊÉ«¹¤ÒµÉãÏñ»ú
  • רҵ¼¶¶¨½¹¾µÍ·
  • רҵ¶¯ÎïÐÐΪ²É¼¯¼°·ÖÎöÈí¼þLoliTrack5
  • ºìÍâ±³¹â°å£ºÓÃÓÚ͸Ã÷¶à¿×°åºÍ͸Ã÷Óã¸×µÈµÄµ×²¿ÕÕÃ÷£¬¿ÉÏû³ý·´É䣬Ҳ¿ÉÓÃÓÚºÚ°µ»·¾³µÄÊÓƵ¼Ç¼
  • ¶¯Îï»î¶¯ÊÒ/³Ø£¨Ñ¡Å䣩£º¶¨ÖÆ»¯Ë®Ïä/Óã¸×¡¢»î¶¯ÊÒµÈ

¼¼ÊõÖ¸±ê

  • ¿É×Ô¶¯¼ÆËã²ÎÊý°üÀ¨£º
  • λÖÃ×ø±ê£¨°üÀ¨Ç°¡¢ºó¡¢ÖÐÏßÖÐÐÄ¡¢ÖØÐÄ£©
  • Òƶ¯¾àÀë
  • ËٶȺÍËÙÂÊ£¨X·½Ïò¡¢Y·½Ïò£©
  • ¼ÓËٶȣ¨X·½Ïò¡¢Y·½Ïò£©
  • Òƶ¯·½Ïò
  • ÉíÌåÈ¡Ïò
  • ÉíÌåÍäÇú
  • תÍäËÙÂÊ
  • Òƶ¯·½ÏòºÍÉíÌåÈ¡Ïò±ä»¯ËÙÂÊ
  • »î¶¯/·Ç»î¶¯Ê±¼äºÍ±ÈÀý
  • ¸ÐÐËȤÇøÓò»¨·Ñʱ¼äºÍÕ¼±È
  • Ä¿±ê¶¯Îïµ½¸ÐÐËȤÇøÓòµÄ¾àÀë
  • ¸öÌå¼ä¾àÀ루IID£©£¬°üÀ¨Æ½¾ù¡¢ÖÚÊýºÍ×îС
  • ¶¯ÎïÐÐΪ¹Û²â·ÖÎöÈí¼þ¾ß±¸¶àÖÖ»ùÓÚ·´²î·¨ºÍ±³¾°¼õ³ý·¨µÄ¹ýÂ˹¦ÄÜ¡£
  • Èí¼þ¿É¸ú×Ùµ¥¸öÇøÓò»ò¶à¸öÇøÓòÄڵĶà¸ö¶¯Î¼´Ê¹¶¯Îï¾ßÓÐÏàͬ£¨»ò²»Í¬£©µÄÐÎ×´¡¢ÑÕÉ«ºÍ´óС¡£
  • ¿ÉÌôÑ¡µ¥¸ö¸öÌåÓÃÒÔ¸ú×ٺͷÖÎö£¬¶ø·ÇËùÓеĸöÌ壻¿É×Ô¶¨Òå¸ú×Ùʱ³¤£¬ºöÂÔ»òÕßÖ»¸ú×Ùij¶Îʱ¼ä£»¾ß±¸ÅúÁ¿·ÖÎö¹¦ÄÜ¡£
  • Èí¼þ¿Éʶ±ðÌض¨ÉíÌåµÄµã루Èçβ¡¢Í·¡¢ÖÐÏßÖеã¡¢ÖØÐÄ£©£¬¸ú×ÙÕâЩµãÓÃÒÔÑо¿Ô˶¯Ñ§£¨Èç°ÚβƵÂÊ¡¢ÉíÌå°Ú¶¯µÈ£©»òÕßÌض¨µÄÐÐΪ£¨ÈçÉíÌåÈ¡Ïò¡¢Òƶ¯·½ÏòµÈ£©¡£

  • Èí¼þ¾ß±¸ÆµÂÊ£¨ÐÄÂÊ¡¢°ÚβƵÂʵȣ©¼ÆËãºÍÈÝ»ý£¨ÐIJ©Á¿µÈ£©¼ÆË㹦ÄÜ¡£

  • Èí¼þ¾ß±¸´íÎó×Բ鹦ÄÜ£¬²¢ÌṩÊÖ¶¯¾À´íµÄ¿ì½Ý·½Ê½¡£
  • Èí¼þ¼æÈݴ󲿷ÖÏà»úºÍÊÓƵ¸ñʽ£¬¾ß±¸ÊÓƵ¼Ç¼ºÍ±à¼­¹¤¾ß£¬¾ß±¸Î»Öá¢Ëٶȡ¢¼ÓËٶȺÍתÍäËÙÂʵÄÈÈͼÉú³É¹¦ÄÜ£¬²¢¿ÉÊä³öµþ¼ÓÁË·ÖÎö½á¹ûµÄÊÓƵºÍͼƬ£¬Óû§¿É×Ô¶¨ÒåExcelÊý¾ÝÎļþÊä³öÄÚÈÝ¡£
  • Èí¼þÄܹ»¶ÔÁ½¸öÏà»ú»òÕßÁ½¸öÊÓƵÎļþµÄÄ¿±ê¶¯Îï½øÐÐ3DÊÓƵ¸ú×ÙºÍÐÐΪ·ÖÎö£¬µ¼³ö3D×ø±êºÍ¹ì¼£µÄ3DÄ£ÐÍ£¬ÔÚÆäËûÈí¼þ×ö½øÒ»²½µÄ¿ÉÊÓ»¯ºÍ·ÖÎö¡£
  • ϵͳ¿É¶Ô24¡¢48»ò96¿×°åÖеÄÉúÎï½øÐиú×ٺͷÖÎö£¬¶ÔÆä»î¶¯Ë®Æ½»òÕßÔ˶¯½øÐпìËÙɸѡÆÀ¹À£¨³£¼ûÓÚ¶¾Àíѧ»òÕßÉúÎïҽѧ¼ì²â£©¡£¿ÉÊäÈëÓû§×Ô¶¨ÒåµÄ´¦ÀíÃèÊöÒÔ°ïÖú·ÖÎöÊý¾Ý¡£

  • 1²ÊÉ«¸ßÇå¸ß֡Ƶ¹¤ÒµÉãÏñ»ú£º½ô´ÕÉè¼Æ£¬·Ö±æÂÊ2592 x 1944 (5.04 MP)£¬Ö¡ÂÊ48FPS£¬Ð¾Æ¬³ß´ç1/2.5" (5.702 mm x 4.277 mm)£¬ÖØÁ¿33g¡£°üÀ¨USBÊý¾ÝÏß¡¢Èý½Å¼ÜÊÊÅäÆ÷¡¢±Ú¹Òʽ֧¼Ü°²×°¡£
  • רҵ¼¶¶¨½¹¾µÍ·£º6mm¡¢8mm¡¢12mm¡¢16mm¡¢25mm¡¢50mm½¹¾à¿ÉÑ¡¡£

  • ºìÍâ±³¹â°å£º´óС16¡Á16cmÖÁ56cm¡Á56cm¹²6Öֳߴç¿ÉÑ¡£¬²¨³¤850nm¡£

Ó¦Óð¸Àý

¸ßŨ¶ÈÈËÌå¿É¿¨Òò´úлÎï±½¼×õ£°®¿µÄþ£¨BE£©±©Â¶Ê¹´óÐ͜иöÌåµÄ»î¶¯ÐÔÏÔÖø½µµÍ¡¢ÓÎÓ¾ËÙÂÊÏÔÖøÔö´ó (Environmental Pollution, 2018)

½¥¶³Ö¢°ßÂíÓãÄ£ÐͱíÏÖ³ö²¡Ö¢ÔçÆڽ׶ÎÒì³£ÐÐΪÔö¶à¡¢ÍíÆڽ׶ÎÔ˶¯»îÐÔ½µµÍµÄ±íÐÍ(Glia, 2019)

 

²úµØ£ºÅ·ÖÞ

 

²Î¿¼ÎÄÏ×

  1. Bucking, C., Wood, C.M., and Grosell, M. (2012). Diet influences salinity preference of an estuarine fish, the killifish Fundulus heteroclitus. Journal of Experimental Biology 215, 1965¨C1974.
  2. Di Cicco, M., Di Lorenzo, T., Fiasca, B., Ruggieri, F., Cimini, A., Panella, G., Benedetti, E., and Galassi, D.M.P. (2021). Effects of diclofenac on the swimming behavior and antioxidant enzyme activities of the freshwater interstitial crustacean Bryocamptus pygmaeus (Crustacea, Harpacticoida). Science of The Total Environment 799, 149461.
  3. Dipp, V.R., Valles, S., Ortiz-Kerbertt, H., Suarez, J.V., and Bardullas, U. (2018). Neurobehavioral Alterations in Zebrafish Due to Long-Term Exposure to Low Doses of Inorganic Arsenic. Zebrafish 15, 575¨C585.
  4. Hansen, L.R., and Roslev, P. (2016). Behavioral responses of juvenile Daphnia magna after exposure to glyphosate and glyphosate-copper complexes. Aquatic Toxicology 179, 36¨C43.
  5. Herbert, N.A., Skj?raasen, J.E., Nilsen, T., Salvanes, A.G.V., and Steffensen, J.F. (2011). The hypoxia avoidance behaviour of juvenile Atlantic cod (Gadus morhua L.) depends on the provision and pressure level of an O2 refuge. Mar Biol 158, 737¨C746.
  6. Huang, Y., Cartlidge, R., Walpitagama, M., Kaslin, J., Campana, O., and Wlodkowic, D. (2018). Unsuitable use of DMSO for assessing behavioral endpoints in aquatic model species. Science of The Total Environment 615, 107¨C114.
  7. Khor, Y.M., Soga, T., and Parhar, I.S. (2013). Caffeine neuroprotects against dexamethasone-induced anxiety-like behaviour in the Zebrafish (Danio rerio). General and Comparative Endocrinology 181, 310¨C315.
  8. Kim, S., Chung, A., Na, J.E., Lee, S.J., Jeong, S.H., Kim, E., Sun, W., Rhyu, I.J., and Park, H. (2019). Myelin degeneration induced by mutant superoxide dismutase 1 accumulation promotes amyotrophic lateral sclerosis. Glia. 23669.
  9. Kruusmaa, M., Gkliva, R., Tuhtan, J.A., Tuvikene, A., and Alfredsen, J.A. Salmon behavioural response to robots in an aquaculture sea cage. Royal Society Open Science 7, 191220.
  10. Millot, S., Cerqueira, M., Castanheira, M.-F., ?verli, ?., Oliveira, R.F., and Martins, C.I.M. (2014). Behavioural Stress Responses Predict Environmental Perception in European Sea Bass (Dicentrarchus labrax). PLOS ONE 9, e108800.
  11. Nam, T.-S., Zhang, J., Chandrasekaran, G., Jeong, I.Y., Li, W., Lee, S.-H., Kang, K.-W., Maeng, J.-S., Kang, H., Shin, H.-Y., et al. (2020). A zebrafish model of nondystrophic myotonia with sodium channelopathy. Neuroscience Letters 714, 134579.
  12. Nielsen, M.E., and Roslev, P. (2018). Behavioral responses and starvation survival of Daphnia magna exposed to fluoxetine and propranolol. Chemosphere 211, 978¨C985.
  13. Parolini, M., De Felice, B., Ferrario, C., Salgueiro-Gonz¨¢lez, N., Castiglioni, S., Finizio, A., and Tremolada, P. (2018). Benzoylecgonine exposure induced oxidative stress and altered swimming behavior and reproduction in Daphnia magna. Environmental Pollution 232, 236¨C244.
  14. Qian, L., Liu, J., Lin, Z., Chen, X., Yuan, L., Shen, G., Yang, W., Wang, D., Huang, Y., Pang, S., et al. (2020). Evaluation of the spinal effects of phthalates in a zebrafish embryo assay. Chemosphere 249, 126144.
  15. Qian, L., Qi, S., Wang, Z., Magnuson, J.T., Volz, D.C., Schlenk, D., Jiang, J., and Wang, C. (2021). Environmentally relevant concentrations of boscalid exposure affects the neurobehavioral response of zebrafish by disrupting visual and nervous systems. Journal of Hazardous Materials 404, 124083.
  16. Rountos, K.J., Kim, J.J., Hattenrath-Lehmann, T.K., and Gobler, C.J. (2019). Effects of the harmful algae, Alexandrium catenella and Dinophysis acuminata, on the survival, growth, and swimming activity of early life stages of forage fish. Marine Environmental Research 148, 46¨C56.
  17. Seebacher, F., Kazerouni, E.G., and Franklin, C.E. (2016). Ultraviolet B radiation alters movement and thermal selection of zebrafish (Danio rerio). Biology Letters 12, 20160258.
  18. Sotto, R.B.D., Medriano, C.D., Cho, Y., Kim, H., Chung, I.-Y., Seok, K.-S., Song, K.G., Hong, S.W., Park, Y., and Kim, S. (2017). Sub-lethal pharmaceutical hazard tracking in adult zebrafish using untargeted LC¨CMS environmental metabolomics. Journal of Hazardous Materials 339, 63¨C72.
  19. Yang, F., Zeng, Y., Huai, W., Zha, W., and Wan, Y. (2022). Responses of cyprinid (Ancherythroculter nigrocauda) to flow with a semi-circular cylinder patch. Journal of Fish Biology 100, 884¨C893.
  20. ºÂÎij¬, Íõ´Ó·æ, Áõ»Û½Ü, ÍõÑþ, and ·ëÈý½Ü (2018). ²»Í¬Ô˶¯Ä£Ê½ÏÂöãÓ×ÓãÓÎÓ¾ÌØÐÔÑо¿. µ­Ë®ÓæÒµ 48, 3¨C9. .

- ·µ»ØÁбí -
¿´²»Ç壿»»Ò»ÕÅ
{{isLoading?'±£´æÖÐ':'±£´æ'}}

Î÷°²Ñз¢ÖÐÐÄ

΢ÐŹ«ÖÚºÅ

ÒµÎñ×Éѯ

΢ÐźÅ

¿­·¢Æì½¢Ìü(Öйú)¹«Ë¾

΢ÐŹ«ÖÚºÅ

¿­·¢Æì½¢Ìü(Öйú)¹«Ë¾

ÊÓƵºÅ

ÁªÏµÎÒÃÇ£º

µØÖ·: ±±¾©Êк£µíÇø¸ßÀïÕÆ·3ºÅÔº6ºÅÂ¥1µ¥Ôª101B

µç»°: 010-82611269/1572

ÊÖ»ú: 13671083121

´«Õæ: 010-62465844

Email: info@eco-tech.com.cn

ÓÑÇéÁ´½Ó£º

X
1

QQÉèÖÃ

  • ¿Í·þ
5

µç»°ºÅÂë¹ÜÀí

  • ±±¾© 010-82611269 13671083121
6

¶þάÂë¹ÜÀí