Marck
Christelle Marck, Charenton Cedex FR
Patent application number | Description | Published |
---|---|---|
20150338685 | METHOD FOR MANUFACTURING AN OPHTHALMIC LENS - Disclosed is a method for manufacturing an ophthalmic lens including a substrate and a functional film securely fastened to a curved face of the substrate. This method includes a method for gluing the initially flat functional film to the curved face. To ensure that the functional film when securely fastened to the curved face filters a preset band of wavelengths centred on a wavelength denoted λp, multiple functional films are preselected; two knowledge bases are established experimentally; a film is selected, using the two knowledge bases, from the plurality of preselected films, the wavelength λi′ on which is centred the band of wavelengths that this film filters for a certain degree of deformation being equal to λp when the degree of deformation is that given for the curvature in question; and the gluing method is implemented in order to securely fasten the selected film to the curved face. | 11-26-2015 |
Christelle Marck, Charenton Le Pont FR
Patent application number | Description | Published |
---|---|---|
20110174431 | METHOD OF TRANSFERRING A PORTION OF A FUNCTIONAL FILM - A method of transferring a portion of a functional film ( | 07-21-2011 |
20120147322 | IMPACT-RESISTANT OPHTHALMIC LENS AND ITS MANUFACTURING PROCESS - An ophthalmic lens includes: a transparent ophthalmic lens substrate made of organic glass; an adhesive layer covering at least one of the faces of the transparent substrate; a transparent film made of a thermoplastic polymer fixed to the transparent substrate via the adhesive layer; and an abrasion-resistant coating covering the transparent thermoplastic polymer film, characterized in that the ophthalmic lens has a minimum thickness at the centre of less than 2 mm, preferably less than 1.5 mm and even more preferably less than 1.2 mm. Two processes for manufacturing such a lens and the use of an adhesive multilayer film to improve the impact strength of such a lens are also described. | 06-14-2012 |
Guy Marck, Schlierbach FR
Patent application number | Description | Published |
---|---|---|
20080293888 | Photocrosslinkable Materials - A diamine compound of formula (I) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. | 11-27-2008 |
20100048849 | PHOTOCROSSLINKABLE MATERIALS COMPRISING ALICYCLIC GROUP - A diamine compound of formula (I) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. | 02-25-2010 |
20100272979 | PHOTOACTIVE MATERIALS - Diamine compounds, which in particular are useful as precursors for the production of liquid crystal alignment layers, are represented by the general formula I: | 10-28-2010 |
20110236602 | PHOTOACTIVE MATERIALS - Diamine compounds, which in particular are useful as precursors for the production of liquid crystal alignment layers, are represented by the general formula I: | 09-29-2011 |
20120076952 | PHOTOCROSSLINKABLE MATERIALS - A diamine compound of formula (I) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. | 03-29-2012 |
20130004679 | PHOTOCROSSLINKABLE MATERIALS - A diamine compound of formula (I) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. | 01-03-2013 |
Guy Marck, Schlierbach CH
Patent application number | Description | Published |
---|---|---|
20100059709 | PATTERNABLE LIQUID CRYSTAL POLYMER COMPRISING THIO-ETHER UNITS - The present invention relates to a photo-polymerized, patterned or unpatterned liquid crystal polymer, especially a liquid crystal polymer film or a liquid crystal polymer network, comprising thio-ether units of formula (I) | 03-11-2010 |
Guy Marck, Schilerbach FR
Patent application number | Description | Published |
---|---|---|
20110065859 | THERMALLY STABLE ALIGNMENT MATERIALS - A thermally stable diamine compound of formula (I′) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. | 03-17-2011 |
Neil C. Marck, Bainbridge Island, WA US
Patent application number | Description | Published |
---|---|---|
20150279424 | SOUND QUALITY OF THE AUDIO PORTION OF AUDIO/VIDEO FILES RECORDED DURING A LIVE EVENT - A digital audio/video (AV) file, or media file (File A) recorded at a live event using a handheld AV recording device is uploaded by a client to an audio replacement service. The audio portion of the digital AV file is of relatively low quality compared to an audio file (File B) of the live event created by sound engineers or other event personnel during the live event. File B is also uploaded to the audio replacement service. A computing device at the audio replacement service automatically identifies a segment of File B corresponding to the audio portion of File A and then creates a new, enhanced digital AV file (File C) on which the low quality audio portion of File A is replaced with the corresponding high quality segment from File B. File C is then downloaded to the client. | 10-01-2015 |
Shawn Marck, San Fransisco, CA US
Patent application number | Description | Published |
---|---|---|
20160080402 | DYNAMIC CONFIGURATION OF SETTINGS IN RESPONSE TO DDOS ATTACK - A system can monitor the server for indications of an attack and adjusts server settings accordingly. In response, the system can increase server tolerance in a systematic way to deal with DDoS by adjusting server settings appropriately. Conversely, when the server is not under attack, the settings can be adjusted to those for standard operations (e.g., adjusted downward), as they are more optimal for normal, non-attack operations. | 03-17-2016 |
20160080412 | EVENT DRIVEN ROUTE CONTROL - Embodiments provide system and methods for a DDoS service using a mix of mitigation systems (also called scrubbing centers) and non-mitigation systems. The non-mitigation systems are less expensive and thus can be placed at or near a customer's network resource (e.g., a computer, cluster of computers, or entire network). Under normal conditions, traffic for a customer's resource can go through a mitigation system or a non-mitigation system. When an attack is detected, traffic that would have otherwise gone through a non-mitigation system is re-routed to a mitigation system. Thus, the non-mitigation systems can be used to reduce latency and provide more efficient access to the customer's network resource during normal conditions. Since the non-mitigation servers are not equipped to respond to an attack, the non-mitigation systems are not used during an attack, thereby still providing protection to the customer network resource using the mitigation systems. | 03-17-2016 |
20160080413 | BLOCKING FORGIVENESS FOR DDOS - Techniques are provided for blocking forgiveness in a system that mitigates distributed denial of service (DDoS) attacks on a network. A user's network address can be blocked as a result performing human behavior analysis on network resource request activity from the user's address. The system can block an address temporarily based on their behavior, classifying legitimate human users as a malicious attacker performing a DDoS attack. But subsequent behavioral analysis of network resource requests can identify that the user should not have been blocked. The system can automatically unblock the user's address, and allow further network resource requests. Previously blocked requests can also be unblocked. The number of infractions (e.g., action classified as malicious) can be tracked and compared to a threshold. If the number is less than the threshold, then that address is not blocked, thereby allowing forgiveness of a certain number of infractions. | 03-17-2016 |
Shawn J. Marck, Los Angeles, CA US
Patent application number | Description | Published |
---|---|---|
20130291107 | System and Method for Mitigating Application Layer Distributed Denial of Service Attacks Using Human Behavior Analysis - A method of mitigating an application distributed denial of service (DDoS) attack on a network includes receiving at an application DDoS mitigation appliance application layer logs, parsing the application layer logs into an application layer forensic file, comparing an entry of the application layer forensic file with a human behavior profile to determine a malicious qualifier associated with an application DDoS attack on the network, parsing the application layer log into a per-source forensic file, comparing an entry of the per-source forensic files with the malicious qualifier to determine a malicious Internet protocol (IP) addresses associated with the application DDoS attack, and providing the malicious IP address to a network device, wherein the network device drops network traffic associated with the application DDoS attack based upon the malicious IP address. | 10-31-2013 |