에드몬드옵틱스는 당사 웹사이트의 기능과 콘텐츠를 최적화하고 개선하기 위해 쿠키를 사용합니다.‘OK’ 버튼을 클릭하면 전체 쿠키 정책에 동의하게 되며,‘세부 정보 표시’ 버튼을 클릭하면 더 자세한 정보를 확인할 수 있습니다.당사는 수집된 쿠키를 통해 제공되는 정보를 판매하지 않으며 해당 정보는 사용자 경험을 개선하는 용도로만 사용됩니다.
이름 | 제공 업체 | 목적 | 최대 보관 기간 | 유형 |
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__lc_cid | LiveChat | 웹사이트의 채팅 박스 기능을 목적으로 필요로 함. | 400 일 | HTTP 쿠키 |
__lc_cst | LiveChat | 웹사이트의 채팅 박스 기능을 목적으로 필요로 함. | 400 일 | HTTP 쿠키 |
#:state | Livechat | Necessary for the functionality of the website's chat-box function. | 영구 | HTML 로컬 스토리지 |
__cf_bm [x2] | edmundoptics.com eogo.edmundoptics.com | This cookie is used to distinguish between humans and bots. This is beneficial for the website, in order to make valid reports on the use of their website. | 1 일 | HTTP 쿠키 |
BIGipServer# | eogo.edmundoptics.com | Used to distribute traffic to the website on several servers in order to optimise response times. | 세션 | HTTP 쿠키 |
rc::a | This cookie is used to distinguish between humans and bots. This is beneficial for the website, in order to make valid reports on the use of their website. | 영구 | HTML 로컬 스토리지 | |
rc::c | This cookie is used to distinguish between humans and bots. | 세션 | HTML 로컬 스토리지 | |
li_gc | Stores the user's cookie consent state for the current domain | 180 일 | HTTP 쿠키 | |
AWSALB [x2] | sealserver.trustwave.com www.edmundoptics.co.kr | Registers which server-cluster is serving the visitor. This is used in context with load balancing, in order to optimize user experience. | 7 일 | HTTP 쿠키 |
AWSALBCORS [x2] | sealserver.trustwave.com www.edmundoptics.co.kr | Registers which server-cluster is serving the visitor. This is used in context with load balancing, in order to optimize user experience. | 7 일 | HTTP 쿠키 |
jsV | service.mtcaptcha.com | These cookies are used to secure the website from unwanted bots and automated scripts and help verify human users. | 세션 | HTTP 쿠키 |
mtv1ConfSum | service.mtcaptcha.com | https://www.mtcaptcha.com/faq-cookie-declaration | 세션 | HTTP 쿠키 |
mtv1Pulse | service.mtcaptcha.com | https://www.mtcaptcha.com/faq-cookie-declaration | 세션 | HTTP 쿠키 |
.AspNetCore.Antiforgery.# | www.edmundoptics.co.kr | Helps prevent Cross-Site Request Forgery (CSRF) attacks. | 세션 | HTTP 쿠키 |
.AspNetCore.Mvc.CookieTempDataProvider | www.edmundoptics.co.kr | Preserves the visitor's session state across page requests. | 세션 | HTTP 쿠키 |
CookieConsent | Cookiebot | Stores the user's cookie consent state for the current domain | 1 년 | HTTP 쿠키 |
UMB_SESSION | www.edmundoptics.co.kr | Stores domain prefix to determine whether it holds https or http URL properties. | 세션 | HTTP 쿠키 |
이름 | 제공 업체 | 목적 | 최대 보관 기간 | 유형 |
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__oauth_redirect_detector | LiveChat | Allows the website to recoqnise the visitor, in order to optimize the chat-box functionality. | 1 일 | HTTP 쿠키 |
@@lc_auth_token:3b0f44ba-5eb5-4bb1-a9e1-2214776a186b | Livechat | 미결 | 영구 | HTML 로컬 스토리지 |
@@lc_ids | Livechat | Identifies the visitor across devices and visits, in order to optimize the chat-box function on the website. | 영구 | HTML 로컬 스토리지 |
이름 | 제공 업체 | 목적 | 최대 보관 기간 | 유형 |
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_livechat_has_visited | Livechat | Identifies the visitor across devices and visits, in order to optimize the chat-box function on the website. | 영구 | HTML 로컬 스토리지 |
_ga [x2] | Registers a unique ID that is used to generate statistical data on how the visitor uses the website. | 25 월 | HTTP 쿠키 | |
_ga_# [x3] | Used by Google Analytics to collect data on the number of times a user has visited the website as well as dates for the first and most recent visit. | 25 월 | HTTP 쿠키 | |
_conv_r | Convert Insight | This cookie is used as a referral-cookie that stores the visitor’s profile – the cookie is overwritten when the visitor re-enters the website and new information on the visitor is collected and stored. | 세션 | HTTP 쿠키 |
_conv_s | Convert Insight | This cookie contains an ID string on the current session. This contains non-personal information on what subpages the visitor enters – this information is used to optimize the visitor's experience. | 1 일 | HTTP 쿠키 |
_conv_sptest | Convert Insight | This cookie contains an ID string on the current session. This contains non-personal information on what subpages the visitor enters – this information is used to optimize the visitor's experience. | 세션 | HTTP 쿠키 |
_conv_v | Convert Insight | This cookie is used to identify the frequency of visits and how long the visitor is on the website. The cookie is also used to determine how many and which subpages the visitor visits on a website – this information can be used by the website to optimize the domain and its subpages. | 6 월 | HTTP 쿠키 |
이름 | 제공 업체 | 목적 | 최대 보관 기간 | 유형 |
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conv_rand | Convert Insight | This cookie is used by the website’s operator in context with multi-variate testing. This is a tool used to combine or change content on the website. This allows the website to find the best variation/edition of the site. | 영구 | HTML 로컬 스토리지 |
__tld__ [x2] | Wisepops | Used to track visitors on multiple websites, in order to present relevant advertisement based on the visitor's preferences. | 세션 | HTTP 쿠키 |
_fbp [x2] | Meta Platforms, Inc. | Used by Facebook to deliver a series of advertisement products such as real time bidding from third party advertisers. | 3 월 | HTTP 쿠키 |
_gcl_au [x2] | Used by Google AdSense for experimenting with advertisement efficiency across websites using their services. | 3 월 | HTTP 쿠키 | |
lastExternalReferrer | Meta Platforms, Inc. | Detects how the user reached the website by registering their last URL-address. | 영구 | HTML 로컬 스토리지 |
lastExternalReferrerTime | Meta Platforms, Inc. | Detects how the user reached the website by registering their last URL-address. | 영구 | HTML 로컬 스토리지 |
IDE | 광고의 유효성을 측정하기 위한 목적으로 광고주의 광고 중 하나를 보거나 클릭한 후 웹사이트 사용자의 행동을 등록 및 보고하고 사용자에게 표적 광고를 제시하기 위해 Google DoubleClick에 사용됨. | 400 일 | HTTP 쿠키 | |
pagead/landing [x2] | Collects data on visitor behaviour from multiple websites, in order to present more relevant advertisement - This also allows the website to limit the number of times that they are shown the same advertisement. | 세션 | 픽셀 트래커 | |
test_cookie | 사용자의 브라우저가 쿠키를 지원하는지 여부를 확인하는 데 사용됨. | 1 일 | HTTP 쿠키 | |
_mkto_trk | Marketo | 방문자의 행동과 웹사이트 상호 작용에 관한 데이터를 포함함. 이는 웹사이트가 이메일을 통해 방문자를 추적할 수 있도록 하는 이메일 마케팅 서비스인 Marketo.com과 관련하여 사용됩니다. | 2 년 | HTTP 쿠키 |
wisepops [x2] | Wisepops | 웹사이트의 팝업 광고 컨텐츠 문구에 사용됩니다. 쿠키는 동일한 동일한 광고를 의도한 것 이상으로 홍보하지 않도록 보장할 뿐만 아니라 방문자에게 어떠한 광보를 보여줘야 할지를 결정합니다. | 세션 | HTTP 쿠키 |
wisepops_props [x2] | Wisepops | 웹사이트의 팝업 광고 컨텐츠 문구에 사용됩니다. 쿠키는 동일한 동일한 광고를 의도한 것 이상으로 홍보하지 않도록 보장할 뿐만 아니라 방문자에게 어떠한 광보를 보여줘야 할지를 결정합니다. | 세션 | HTTP 쿠키 |
wisepops_session [x2] | Wisepops | 웹사이트의 팝업 광고 컨텐츠 문구에 사용됩니다. 쿠키는 동일한 동일한 광고를 의도한 것 이상으로 홍보하지 않도록 보장할 뿐만 아니라 방문자에게 어떠한 광보를 보여줘야 할지를 결정합니다. | 세션 | HTTP 쿠키 |
wisepops_visitor [x2] | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTTP 쿠키 |
wisepops_visits [x2] | Wisepops | 웹사이트의 팝업 광고 컨텐츠 문구에 사용됩니다. 쿠키는 동일한 동일한 광고를 의도한 것 이상으로 홍보하지 않도록 보장할 뿐만 아니라 방문자에게 어떠한 광보를 보여줘야 할지를 결정합니다. | 세션 | HTTP 쿠키 |
NID | 재유입 사용자의 기기를 식별하는 고유의 ID를 등록함. 이 ID는 표적 광고를 위해 사용됩니다. | 6 월 | HTTP 쿠키 | |
pagead/1p-user-list/# | Tracks if the user has shown interest in specific products or events across multiple websites and detects how the user navigates between sites. This is used for measurement of advertisement efforts and facilitates payment of referral-fees between websites. | 세션 | 픽셀 트래커 | |
1.gif | Usercentrics GmbH | Used to count the number of sessions to the website, necessary for optimizing CMP product delivery. | 세션 | 픽셀 트래커 |
bcookie | 임베디드 서비스 사용을 추적하기 위해 소셜 네트워크 서비스인 LinkedIn에 사용됨. | 1 년 | HTTP 쿠키 | |
lidc | 임베디드 서비스 사용을 추적하기 위해 소셜 네트워크 서비스인 LinkedIn에 사용됨. | 1 일 | HTTP 쿠키 | |
wisepops_session_id | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTML 로컬 스토리지 |
wisepops_session_landing_url | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTML 로컬 스토리지 |
wisepops_session_referrer | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTML 로컬 스토리지 |
wisepops-pageview_id | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTML 로컬 스토리지 |
wisepops-uses-attention | Wisepops | Used in context with pop-up advertisement-content on the website. The cookie determines which ads the visitor should be shown, as well as ensuring that the same ads does not get shown more than intended. | 세션 | HTML 로컬 스토리지 |
#-# | YouTube | Used to track user’s interaction with embedded content. | 세션 | HTML 로컬 스토리지 |
511422-22d53b02 | YouTube | 미결 | 세션 | HTML 로컬 스토리지 |
da8c92-4db6ad13 | YouTube | 미결 | 세션 | HTML 로컬 스토리지 |
iU5q-!O9@$ | YouTube | Registers a unique ID to keep statistics of what videos from YouTube the user has seen. | 세션 | HTML 로컬 스토리지 |
LAST_RESULT_ENTRY_KEY | YouTube | Used to track user’s interaction with embedded content. | 세션 | HTTP 쿠키 |
LogsDatabaseV2:V#||LogsRequestsStore | YouTube | Stores the user's video player preferences using embedded YouTube video | 영구 | IndexedDB |
nextId | YouTube | Used to track user’s interaction with embedded content. | 세션 | HTTP 쿠키 |
remote_sid | YouTube | Necessary for the implementation and functionality of YouTube video-content on the website. | 세션 | HTTP 쿠키 |
requests | YouTube | Used to track user’s interaction with embedded content. | 세션 | HTTP 쿠키 |
ServiceWorkerLogsDatabase#SWHealthLog | YouTube | Necessary for the implementation and functionality of YouTube video-content on the website. | 영구 | IndexedDB |
TESTCOOKIESENABLED | YouTube | Used to track user’s interaction with embedded content. | 1 일 | HTTP 쿠키 |
VISITOR_INFO1_LIVE | YouTube | 유튜브 비디오가 통합된 페이지 상에서 사용자의 대역폭을 추정함. | 180 일 | HTTP 쿠키 |
YSC | YouTube | 사용자가 시청한 유튜브 동영상에 관한 통계를 보관하기 위해 고유의 ID를 등록함. | 세션 | HTTP 쿠키 |
yt.innertube::nextId | YouTube | Registers a unique ID to keep statistics of what videos from YouTube the user has seen. | 영구 | HTML 로컬 스토리지 |
yt.innertube::requests | YouTube | Registers a unique ID to keep statistics of what videos from YouTube the user has seen. | 영구 | HTML 로컬 스토리지 |
ytidb::LAST_RESULT_ENTRY_KEY | YouTube | Stores the user's video player preferences using embedded YouTube video | 영구 | HTML 로컬 스토리지 |
YtIdbMeta#databases | YouTube | Used to track user’s interaction with embedded content. | 영구 | IndexedDB |
yt-remote-cast-available | YouTube | Stores the user's video player preferences using embedded YouTube video | 세션 | HTML 로컬 스토리지 |
yt-remote-cast-installed | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 세션 | HTML 로컬 스토리지 |
yt-remote-connected-devices | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 영구 | HTML 로컬 스토리지 |
yt-remote-device-id | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 영구 | HTML 로컬 스토리지 |
yt-remote-fast-check-period | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 세션 | HTML 로컬 스토리지 |
yt-remote-session-app | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 세션 | HTML 로컬 스토리지 |
yt-remote-session-name | YouTube | 내장된 유튜브 비디오를 사용해 사용자의 비디오 플레이어 환경 설정을 저장함. | 세션 | HTML 로컬 스토리지 |
이 유형의 쿠키를 사용하지 않음 |
Norman Edmund Inspiration Award — $5,000 in Products
Colorado State University , United States — Submitted by Justin Sambur
Mr. Sambur’s proposed project uses light sheet microscopy to directly visualize solar energy conversion processes along the length of a single nanowire. The long-term goal of this project is to inform materials scientists on how to synthesize the optimal electrode architecture for solar energy conversion applications. To inspire the next generation of scientists to engage in optics and nanoscience, Sambur and his team have developed a LEGO microscope that uses a smart phone camera to image single fluorescent nanoparticles. “Seeing is believing,” said Sambur. “However, it is impossible for K-12 and most undergraduate science students to see nanoscale materials because they lack sophisticated imaging capabilities.” The students learn first-hand the challenges associated with “seeing” single nanoparticles using visible light. His team developed step-by-step instructions that shows students how to determine the smart phone camera pixel size using a conventional metric ruler. Most importantly, the activity exposes young students to optical concepts and gives them hands-on experience using optical components, ultimately providing them with the rewarding experience of building a fully-functional optical microscope for nanoparticle imaging.
Americas — $10,000 in Products
Institut National de la Recherche Scientifique, Canada – submitted by Jinyang Liang
For the development of compressed ultrafast microscopy (CUMic) to image neuronal activities in real time. Optical neuroimaging is a potent emerging approach to mapping neural activities. It has inherent advantages in non-invasiveness, large recording parallelism, multiple-parameter sensing, and high spatiotemporal resolution and scalability. The success of optical neuroimaging has two essential constituents: indicators of neural activities and optical imaging instruments. Despite recent advances in fast-response, high-sensitivity voltage and calcium indicators, progress in optical instrumentation has not kept pace. Limitations in imaging speed, light throughput, pixel counts, scalability, sensitivity, and/or imaging depth in existing imagers have severely hampered the scope and measurement accuracy of neural activities under interrogation. The development of this novel instrumentation intends to bridge the gap between the Biomedical, Physics, and and Engineering fields by utilizing ultra-fast and photo-acoustic imaging.
Europe — €7,000 in Products
Universität Innsbruck, Austria – submitted by Thorsten Schwerte
For the disruption of host targeting in blood feeding flight insects by dynamic light pattern projection in dark and light rooms. In this project the hypotheses that flight insects, including blood seeking ones, which rely on optical feedback from their environment can be “flight-controlled” by projected landmarks using dynamic light patterns is being examined. Only a few recent studies support the hypothesis that vision control is important for the navigation of blood seeking insects to the host. The mosquito’s perception of different wavelengths enables them to see IR light (860 nm). Being invisible to humans, IR light does not interfere with the human vision system. As blood-seeking flight insects are one of the most dangerous animals on earth, a low-cost optical system for active, non-poisonous protection of humans from mosquito bites would have a high impact on third world development. In addition, the outcome of this project provides a deeper understanding of the strategies of flight navigation in insects.
Americas — $7,500 in Products
Universidad Nacional de Quilmes, Argentina – submitted by Fernando Alvira
For the implementation of an interferometric spectrometer for Raman Spectroscopy as a tool to diagnose Alzheimer‘s Disease. In the next 50 years, Alzheimer‘s Disease will affect 100 million people globally. Current methods and techniques pose limiations for a reliable laboratory method to diagnose the early detection of Alzheimer‘s Disease in an individual. However, Raman Spectroscopy has shown tremendous potential to detect the disease in early stages of development, due to this non-invasive and non-destructive method. The main drawback of this approach is the cost involved. To address this issue, the team will develop an inexpensive detector for Raman spectroscopy with an excitation in Ultra-Violet region. The spectral information obtained from samples of the brain of animals with Alzheimer‘s Disease will be analyzed by a statistical algorithm employed to extract information from Raman spectra. The main advantage of this technique is the equipment will be the cheapest than any commercial Raman instrument known to date.
Europe — €5,000 in Products
Delft University of Technology, The Netherlands – submitted by Hai Gong
For the development of a smart optical malaria diagnostic instrument, deployable to low-resource settings. This instrument will operate with minimal human intervention: malaria parasites in human blood samples will be detected with highly sensitive and specific optics without deploying conventional staining methods. Since this conventional method is laborious and its accuracy depends on the expertise of the microscopist, a low-cost and label free diagnostic method is to be developed. The goal of this project is to achieve fast diagnoses without laborious sample preparation by combining the following imaging modalities: digital holography (providing phase information on deformation of the red blood cells), polarization sensitive imaging (for the detection of malaria pigments in blood sample), hyperspectral imaging and surface plasmon resonance microscopy. As a result, a multi-modal system, which provides reliable and accurate measurements for malaria diagnoses will be implemented. In addition, a smart algorithm for the recognition and counting of the parasites in the measured data will be incorporated into the device.
Americas — $5,000 in Products
Boston University, United States – submitted by Daniel Leman
For the design of a lightweight, 3D-printed, wireless-capable microscope for single photon fluorescence imaging in awake, behaving animals. This system utilizes blue light, focused through a drum lens, to excite a green fluorophore. Light is collimated through a GRIN lens, and emitted light travels through an achromat doublet to the sensor. With a 3D printed design, these microscopes can quickly adapt and redesign a variety of single-fluorescence applications. The current design serves users imaging green fluorophores, namely GFP/GCaMP, via small (700 micron) fields of view. However, there is interest in developing a wide field imaging version of these “miniscopes” to image larger neural structures, like olfactory bulb. The ultimate goal of this project is the development of a lower-cost, open source option compared to what is commercially available. With the adaptability of this design, users can easily implement microscopes and change them to fit their specific optical needs and purposes.
Europe — €3,000 in Products
Justus-Liebig-Universität Gießen, Germany – submitted by Florian Bayer
For the development of a 4-fold DLP projection system with filtered high power LEDs to investigate previously inaccessible, fundamental mechanisms of signal processing of the human retina. For this purpose, a scientific device has to comply with two requirements: independent control of the stimulation of all photoreceptors (L-, M-, S-cones, and rods) and a spatial and temporal resolution appropriate for vision science. Previous devices failed to meet both requirements at the same time, which limited the progress in this research area for many years. With this developed projection system, light can be shed on the properties of different signal pathways in the retina as well as on their interactions. This provides a unique possibility to investigate how the first stage of visual processing works, how it shapes visual perception, and how it is altered in certain retinal diseases. One goal of this work is to conduct and to publish psychophysical studies on retinal processing and its consequences for perception. The benefit is to provide missing fundamental parts to the puzzle of how visual information is processed in the retina. In addition, the goal to examine patients with retinal diseases with respect to changes in retinal processing provides a better understanding of the causes and consequences of those diseases. The third goal is to identify medical applications in eye health care and to re-design and commercialize it accordingly. The benefit is to provide a new sophisticated method for diagnosing retinal diseases and evaluating the effects of medical treatments.
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