Geilich
Benjamin Geilich, Brookline, MA US
Patent application number | Description | Published |
---|---|---|
20160000725 | Nanoparticle- and Drug-Containing Polymersomes for Medical Applications - Provided are polymersomes for co-delivery of hydrophobic metallic nanoparticles and pharmaceutical agents and suspensions of such polymersomes. Also provided are methods of making such polymersomes and suspensions of polymersome and methods of using the same to treat diseases or conditions. | 01-07-2016 |
Michael Geilich, Hanover, NH US
Patent application number | Description | Published |
---|---|---|
20090089319 | System and Method for Differentiating Duplicate Addresses in a Locality - A method and system are presented for differentiating duplicate addresses within a locality. A relational database of geographical features is constructed where each geographical feature has related attributes which can be used to differentiate among multiple same-named features. Precedence hierarchies of such attributes can be created within the database where each precedence hierarchy is constructed based on a combination of user type and situational scenario information. Upon receiving a mapping destination from a user, the system may identify the input as being ambiguous. The user and situation can be analyzed in order to select the precedence hierarchy best fit to resolve the ambiguity in this particular situation. The selected hierarchy can then be traversed until an attribute is found that exists for both features and serves to distinguish between them. The attributes can be presented to the end user along with information regarding the ambiguity. | 04-02-2009 |
20110160995 | MAP DATABASE HAVING VECTORS FOR DETERMINING DESTINATIONS, AND VECTOR DETERMINATION METHOD - A method, database, memory computer readable medium and navigation device are disclosed. In at least one embodiment, the method includes projecting a plurality of known address points onto an address segment vector of a source map database, to create projection points; interpolating locations for addresses of the address points, to create corresponding interpolation points; and segmenting the address segment vector into a plurality of address sub-segment vectors, upon a distance between a projection point and a corresponding interpolation point exceeding a threshold distance. Embodiments include a memory including a digital map application database storing the address sub-segment vectors of the method, at least one of in place of and in addition to corresponding address segment vectors, upon an address segment vector being segmented; a navigation device including the memory; a digital map application database including a plurality of address segment vectors and a plurality of address sub-segment vectors and a computer readable medium including the digital map application database. | 06-30-2011 |
Michael Geilich, Cornish, NH US
Patent application number | Description | Published |
---|---|---|
20130151229 | METHODS AND APPARATUS FOR SIMULATING RISK TOLERANCE AND ASSOCIATED ADVERSARY COSTS IN A DISTRIBUTED BUSINESS PROCESS - Methods and apparatus for simulating risk tolerance and associated adversary costs in a distributed business process are disclosed. The methods and apparatus simulate an interdependent business process, such as a financial transaction system, in a secure distributed manner. Each business entity that is part of the interdependent business process models itself on a local client device at any chosen level of detail. A simulation server connects the separate client based simulations into one large simulation. Details of each local simulation may be hidden from other simulation participants. However, interruptions in business flow caused by simulated disruptions introduced at the simulation server and/or a client device are propagated to all of the effected simulation participants via the simulation server. In addition, the simulation server receives inputs from users indicative of risk tolerance levels and associated response actions. If the operational costs imposed by a selected response action are greater than a deterrence threshold associated with a particular adversary, the adversary is not deterred from causing a certain disruption to the simulated competitive market environment. If the operational costs imposed by a selected response action are greater than the deterrence threshold the adversary is deterred. | 06-13-2013 |
20150032501 | METHODS AND APPARATUS FOR SIMULATING RISK TOLERANCE AND ASSOCIATED ADVERSARY COSTS IN A DISTRIBUTED BUSINESS PROCESS - Methods and apparatus for simulating risk tolerance and associated adversary costs in a distributed business process are disclosed. The methods and apparatus simulate an interdependent business process, such as a financial transaction system, in a secure distributed manner. Each business entity that is part of the interdependent business process models itself on a local client device at any chosen level of detail. A simulation server connects the separate client based simulations into one large simulation. Details of each local simulation may be hidden from other simulation participants. However, interruptions in business flow caused by simulated disruptions introduced at the simulation server and/or a client device are propagated to all of the effected simulation participants via the simulation server. In addition, the simulation server receives inputs from users indicative of risk tolerance levels and associated response actions. If the operational costs imposed by a selected response action are greater than a deterrence threshold associated with a particular adversary, the adversary is not deterred from causing a certain disruption to the simulated competitive market environment. If the operational costs imposed by a selected response action are greater than the deterrence threshold the adversary is deterred. | 01-29-2015 |
Ralf Geilich, Eppstein DE
Patent application number | Description | Published |
---|---|---|
20100228215 | Absorbent articles with sublayer - A diaper or adult incontinence garment including a backsheet and a sublayer. The sublayer may include one or more acquisition layers and one or more regions having a multitude of through or blind holes. The sublayer may isolate feces away from the skin and at the same time provide liquid acquisition. Certain regions of the sublayer may have a total open area of from 10% to 50% of the total surface area of the sublayer. The holes have an average smallest dimension of at least 3 mm. The sublayer has an average caliper of from 2 mm to 6, and an average caliper loss after wetting and under pressure of 0.3 psi of less than 20%. | 09-09-2010 |
20120157950 | Absorbent Article Having Improved Bonding - An absorbent article is provided. The absorbent article includes a liquid pervious film topsheet having a body facing surface and a garment facing surface; a backsheet having a body facing surface and a garment facing surface; an absorbent core having a body facing surface and a garment facing surface, the absorbent core being provided between the topsheet and the backsheet; and a bonding layer having a body facing surface and a garment facing surface. The body facing surface of the bonding layer has a fibrous matrix comprising cellulosic fibers and thermoplastic fibers, and the garment facing surface of the topsheet is directly bonded to the body facing surface of the bonding layer at discrete adhesive-free bond points. | 06-21-2012 |
20130310783 | SEALED CORE FOR AN ABSORBENT ARTICLE - An absorbent article is provided including a topsheet, a backsheet, and an absorbent core disposed between the topsheet and the backsheet. The core defines a wearer facing side oriented towards a wearer when the article is being worn and an opposed garment facing side. The core includes a storage layer that also defines a wearer facing side and an opposed garment facing side. The core further includes a first core wrap sheet covering the wearer facing side of the storage layer, and a second core wrap sheet covering the garment facing side of the storage layer. The first core wrap sheet is joined to the second core wrap sheet along at least one stripe of juncture. The stripe of juncture extends in at least one of the transversal and longitudinal directions. | 11-21-2013 |