Abstract: Compositions, and methods and uses thereof are provided, wherein the compositions comprise a biologically active agent and one or more solvents that dissolve the biologically active agent.

Abstract: A human-machine interface device is provided for communicating touch interaction between two users. The device comprises: a drive mechanism, an interaction element, a sensor, a network connection, and a controller. The drive mechanism is configured to apply a drive force to the interaction element. The sensor is configured to measure interaction by a user with the interaction element so as to obtain interaction data. The network connection is configured to transmit the interaction data to a corresponding human-machine interface device and receive remote interaction data from the corresponding human-machine interface device which is indicative of a second user's interaction with the corresponding device. The controller is configured to control the drive mechanism such that a force is applied to the interaction element based on the remote interaction data.

Abstract: An embodiment of an exhaust handling system for a marine vessel includes a cap connected to a top end portion of an exhaust stack of the marine vessel to form an enclosure at least partially surrounding an outlet of an exhaust pipe extending through the exhaust stack. In addition, the exhaust handling system includes a collection pipe in fluid communication with the cap such that the collection pipe is to receive exhaust from the enclosure, and a coupling connected to the collection pipe that is to connect to an exhaust cleaning assembly. The exhaust cleaning system includes a tank to receive the exhaust. The cap at least partially defines a first flow path for the exhaust that extends from the enclosure to the atmosphere. The collection pipe at least partially defines a second flow path for the exhaust that extends from the enclosure to the coupling via the collection pipe.

Abstract: An embodiment of an exhaust collection system for collecting exhaust from a marine vessel includes an exhaust cleaning assembly including a tank. In addition, the exhaust collection system includes a vent hood in fluid communication with the tank of the exhaust cleaning assembly. The vent hood includes a frame including one or more extendable frame members, and an outer covering that covers the frame to define an enclosure with an opening configured to receive an exhaust stack of the marine vessel therethrough, the one or more extendable frame members to extend and retract to adjust a size of the opening.

Abstract: An embodiment of an exhaust handling system for a marine vessel includes a cap connected to a top end portion of an exhaust stack of the marine vessel to form an enclosure at least partially surrounding an outlet of an exhaust pipe extending through the exhaust stack. In addition, the exhaust handling system includes a collection pipe in fluid communication with the cap such that the collection pipe is to receive exhaust from the enclosure, and a coupling connected to the collection pipe that is to connect to an exhaust cleaning assembly. The exhaust cleaning system includes a tank to receive the exhaust. The cap at least partially defines a first flow path for the exhaust that extends from the enclosure to the atmosphere. The collection pipe at least partially defines a second flow path for the exhaust that extends from the enclosure to the coupling via the collection pipe.

Abstract: An embodiment of an exhaust collection system for collecting exhaust from a marine vessel includes an exhaust cleaning assembly including a tank. In addition, the exhaust collection system includes a vent hood in fluid communication with the tank of the exhaust cleaning assembly. The vent hood includes a frame including one or more extendable frame members, and an outer covering that covers the frame to define an enclosure with an opening configured to receive an exhaust stack of the marine vessel therethrough, the one or more extendable frame members to extend and retract to adjust a size of the opening.

Abstract: A method includes receiving a representation of a predefined planned event that includes the use of a first set of cellular data service infrastructure elements. A performance of the first set of cellular data service infrastructure elements is simulated, and a predicted failure of at least one cellular data service infrastructure element from the first set of cellular data service infrastructure elements is identified based on the simulation. In response to identifying the predicted failure, a modification to the at least one cellular data service infrastructure element or an additional cellular data service infrastructure element is determined and included in a second set of cellular data service infrastructure elements whose performance is subsequently simulated. The simulated performance of the first set of cellular data service infrastructure elements is compared with the simulated performance of the second set of cellular data service infrastructure elements to determine a performance improvement.

Abstract: A method includes receiving a representation of a predefined planned event that includes the use of a first set of cellular data service infrastructure elements. A performance of the first set of cellular data service infrastructure elements is simulated, and a predicted failure of at least one cellular data service infrastructure element from the first set of cellular data service infrastructure elements is identified based on the simulation. In response to identifying the predicted failure, a modification to the at least one cellular data service infrastructure element or an additional cellular data service infrastructure element is determined and included in a second set of cellular data service infrastructure elements whose performance is subsequently simulated. The simulated performance of the first set of cellular data service infrastructure elements is compared with the simulated performance of the second set of cellular data service infrastructure elements to determine a performance improvement.

Abstract: According to the present invention there is provided composition in the form of an oil-in-water emulsion having a viscosity of between 15,000 cP (15 Pa-s) and 45,000 cP (45 Pa-s) at 23° C., having a pH of between 2 and 6 and comprising: (i) at least 1.6 wt. % of at least one cross-linked anionic polyelectrolyte resulting from the polymerisation of partially or completely salified 2-methyl 2-[(1-oxo 2-propenyl)amino]1-propane sulfonic acid, with at least one neutral monomer chosen from the N,N-dialkyl acrylamides, wherein each of the alkyl groups comprises between one and four carbon atoms, and at least one monomer of formula (B): wherein R represents a linear or branched alkyl radical comprising eight to twenty carbon atoms and n represents a number greater than or equal to one and less than or equal to twenty, in the presence of at least one cross-linking agent; (ii) at least 4 wt. % of at least one polysorbate; (iii) at least 0.1 wt. % of at least one polysaccharide gum; and (iv) between 6 wt. % and 30 wt.

Abstract: A method includes receiving a representation of a predefined planned event that includes the use of a first set of cellular data service infrastructure elements. A performance of the first set of cellular data service infrastructure elements is simulated, and a predicted failure of at least one cellular data service infrastructure element from the first set of cellular data service infrastructure elements is identified based on the simulation. In response to identifying the predicted failure, a modification to the at least one cellular data service infrastructure element or an additional cellular data service infrastructure element is determined and included in a second set of cellular data service infrastructure elements whose performance is subsequently simulated. The simulated performance of the first set of cellular data service infrastructure elements is compared with the simulated performance of the second set of cellular data service infrastructure elements to determine a performance improvement.

Abstract: According to the present invention there is provided a stable, fluid, tubing mascara composition in the form of an oil-water emulsion comprising: (i) at least 9% by weight of the total composition of one or more film-forming aliphatic polyurethane resins; and (ii) one or more waxes; wherein the ratio of total aliphatic polyurethane resin concentration to total wax concentration is between 0.70 and 0.92. The present invention also provides an assembly or kit for packaging and applying a mascara composition for coating eyelashes, comprising: (i) a device for packaging the mascara composition as defined above; and (ii) an applicator for the composition.

Abstract: The disclosed technology relates to a composition comprising: 0.1 to 3 wt % (or 0.5 to 2.5 wt %) of a beta hydroxy acid, 0.05 to 3 wt % (or 0.09 to 2.5 wt %) of an O-substituted ascorbic acid or a derivative thereof, and a cosmetically acceptable medium comprising an aqueous phase, wherein a beta hydroxy acid is present at a higher concentration than O-substituted ascorbic acid or a derivative thereof. The disclosed technology further relates to the use and method of improving skin condition.

Abstract: According to the present invention there is provided a cosmetic composition comprising a cosmetically acceptable carrier and a preservative system, wherein the preservative system comprises: (i) an antimicrobial agent; (ii) a chelating agent comprising ethylenediamine tetraacetic acid (EDTA) or a derivative thereof; and (iii) an antimicrobial booster agent selected from the group consisting of ethylhexylglycerin, caprylyl glycol, hydroxy acetophenone, caprylhydroxamic acid, phenethyl alcohol, p-anisic acid, glyceryl caprylate, levulinic acid, sodium levulinate, propanediol, hexanediol, pentylene glycol, capryloyl glycine, methylpropanediol, phenylpropanol, sodium anisate, and combinations thereof, wherein the antimicrobial agent is present in an amount of from about 0.001% to about 1% by weight of the composition.

Abstract: According to the present invention there is provided composition in the form of an oil-in-water emulsion having a viscosity of between 15,000 cP (15 Pa-s) and 45,000 cP (45 Pa-s) at 23° C., having a pH of between 2 and 6 and comprising: (i) at least 1.6 wt. % of at least one cross-linked anionic polyelectrolyte resulting from the polymerisation of partially or completely salified 2-methyl 2-[(1-oxo 2-propenyl)amino]1-propane sulfonic acid, with at least one neutral monomer chosen from the N,N-dialkyl acrylamides, wherein each of the alkyl groups comprises between one and four carbon atoms, and at least one monomer of formula (B): wherein R represents a linear or branched alkyl radical comprising eight to twenty carbon atoms and n represents a number greater than or equal to one and less than or equal to twenty, in the presence of at least one cross-linking agent; (ii) at least 4 wt. % of at least one polysorbate; (iii) at least 0.1 wt. % of at least one polysaccharide gum; and (iv) between 6 wt. % and 30 wt.

Abstract: The disclosed technology relates to a composition comprising: 0.1 to 3 wt % (or 0.5 to 2.5 wt %) of a beta hydroxy acid, 0.05 to 3 wt % (or 0.09 to 2.5 wt %) of an O-substituted ascorbic acid or a derivative thereof, and a cosmetically acceptable medium comprising an aqueous phase, wherein a beta hydroxy acid is present at a higher concentration than O-substituted ascorbic acid or a derivative thereof. The disclosed technology further relates to the use and method of improving skin condition.

Abstract: The disclosed technology relates to a method of decreasing or preventing signs of ageing of décolleté skin and optionally the face and/or neck skin comprising topically applying to the skin a composition comprising a cosmetically acceptable medium, a vitamin C, or derivative thereof, and compound having two or more hydroxyl groups, wherein the compound has a molar mass of at least 150 g/mol and increases transglutaminase K expression in epidermal keratinocytes.

Abstract: A water-in-oil emulsion comprising less than 60% water, and wherein said emulsion comprises an oil phase and a water phase, and wherein the water phase comprises a dipeptide selected from the group consisting of acetyl dipeptide (1) cetyl ester, acetyl dipeptide (3) aminohexanoate, azelaoyl bisdipeptide (10), coumaroyl dipeptide (3), dicetyl dipeptide (9), dipeptide diamino butyroyl benzylamide diacetate, dipeptide (1), dipeptide (10), dipeptide (11), dipeptide (12), dipeptide (15), dipeptide (16), dipeptide (17), dipeptide (18), dipeptide (19), dipeptide (2), dipeptide (20), dipeptide (3), dipeptide (4), dipeptide (5), dipeptide (6), dipeptide (7), dipeptide (8), dipeptide (8) HCL, dipeptide (9), hexanoyl dipeptide (3) norleucine acetate, methyl undecylenoyl dipeptide (16), nicotinoyl dipeptide (22), nicotinoyl dipeptide (23), nicotinoyl dipeptide (24), nicotinoyl dipeptide (26), oleoyl dipeptide (15), palmitoyl dipeptide (10), palmitoyl dipeptide (13), palmitoyl dipeptidel (7), palmitoyl dipeptide (5) diami

Abstract: The disclosed technology relates to a composition comprising an O-substituted ascorbic acid or derivative thereof; and gluconolactone, wherein the composition comprises an aqueous phase present at up to 95 wt % of the composition. The disclosed technology further relates to the use and method of improving skin condition.

Abstract: A solar panel cleaning device comprises a Peltier refrigerator mounted onto the top of a solar panel wherein the Peltier refrigerator is positioned such that condensation formed by the Peltier refrigerator will flow over the solar panel's surface.

Abstract: The present invention provides a water-in-oil emulsion comprising less than 60% water, and wherein said emulsion comprises an oil phase and a water phase, and wherein the water phase comprises a matrix metalloproteinase inhibitor (MMPi) and a skin conditioning agent.