Datasets:

lcolonn
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patfig

image_name stringlengths 17 21	pub_number stringlengths 11 11	title stringlengths 4 342	figs_norm sequencelengths 1 10	short_description sequencelengths 1 8	long_description sequencelengths 1 16	short_description_token_count int64 10 216	long_description_token_count int64 40 2.28k	draft_class stringclasses 566 values	cpc_class stringclasses 9 values	relevant_terms listlengths 0 903	associated_claims stringlengths 78 25.7k	compound bool 2 classes	references sequencelengths 0 321
EP_3500042_B1 (1).png	EP3500042B1	SYSTEM AND METHOD FOR IMPROVING TRANSMISSION IN WIRELESS NETWORKS	[ "FIG2" ]	[ "FIG2 illustrates a system according to an embodiment of the invention" ]	[ "FIG2 illustrates a system 200 according to an embodiment of the disclosure. The system 200 includes a first network 202 and a second network 206. The first network 202 includes one or more first network devices 204, and the second network includes one or more second network devices 208. In FIG2, the boundary of th...	11	343	null	H	[ { "element_identifier": "210", "terms": [ "overlapping network channels" ] }, { "element_identifier": "214", "terms": [ "have second network channels" ] }, { "element_identifier": "202", "terms": [ "first network" ] }, { "element_identifier": "20...	['9. The method according to any of claims 1 to 8, wherein the threshold is determined based on evaluating min ( T LBT (1 - λ ), π ( ρ ) T LBT ), wherein T LBT is the fixed duration of time, λ is a load of the first network transmitter, and π ( ρ ) is a fraction of transmission opportunities on the channel.', '1...	false	[ "200", "202", "204", "212", "210", "204", "206", "208", "208", "204", "204", "208", "208", "208", "214", "21" ]
EP_3500042_B1 (2).png	EP3500042B1	SYSTEM AND METHOD FOR IMPROVING TRANSMISSION IN WIRELESS NETWORKS	[ "FIG3" ]	[ "FIG3 is a flow diagram for data transmission according to an embodiment of the invention" ]	[ "FIG3 is a flow diagram 300 for data transmission according to an embodiment of the disclosure. At step 302, the first network device 204 monitors activity in the overlapping frequency bands, for example, in one channel of the overlapping network channels 210. At step 304, the first network device 204 determines wh...	15	94	flow diagram	H	[ { "element_identifier": "802", "terms": [ "IEEE" ] }, { "element_identifier": "8", "terms": [ "andFIG." ] }, { "element_identifier": "301", "terms": [ "ETSI's EN" ] }, { "element_identifier": "18", "terms": [ "clause" ] }, { ...	['8. The method according to any of claims 1 to 7, wherein the threshold is determined based on an activity level in the overlapping frequency bands.', '9. The method according to any of claims 1 to 8, wherein the threshold is determined based on evaluating min ( T LBT (1 - λ ), π ( ρ ) T LBT ), wherein T LBT is th...	false	[ "300", "302", "304", "306", "308", "310", "314", "312", "22" ]
EP_3500042_B1 (6).png	EP3500042B1	SYSTEM AND METHOD FOR IMPROVING TRANSMISSION IN WIRELESS NETWORKS	[ "FIG7" ]	[ "FIG7 shows exemplary simulation results according to an embodiment of the invention" ]	[ "The obtained results are plotted in FIG7. FIG7 shows individual throughput gain with respect to legacy Wi-Fi when an LBT WN shares the medium with 5 background Wi-Fi WNs, whose offered load increases. It can be seen that 3GPP LAA negatively impacts on Wi-Fi even when lightly loaded. This is more obvious when the f...	12	172	null	H	[ { "element_identifier": "300", "terms": [ "flow diagram" ] }, { "element_identifier": "7", "terms": [ "where in", "if" ] }, { "element_identifier": "200", "terms": [ "system" ] } ]	['14. A system for operating a plurality of wireless networks, comprising: at least a first wireless transmitter operable in at least a first wireless network which has overlapping frequency bands with a second wireless network, the first wireless transmitter being configured to: monitor activity in the overlapping fre...	false	[ "400", "300", "200", "600", "200", "150", "100", "50", "600", "400", "7", "26" ]
EP_3500065_B1 (3).png	EP3500065B1	INDUCTION HEATING CELLS COMPRISING TENSIONING MEMBERS WITH NON-MAGNETIC METAL CORES	[ "FIG4" ]	[ "FIG4 illustrates an example of arranging multiple tensioning members in a die, in accordance with some examples" ]	[ "In some examples, first tensioning member 130 is a part of first group 137 as, for example, schematically shown in FIG4. All tensioning members 130 of first group 137 are parallel to each other (e.g., extend in X direction). Furthermore, tensioning members 130 of first group 137 may be distributed throughout die i...	18	70	schematic	B	[ { "element_identifier": "137", "terms": [ "first group" ] }, { "element_identifier": "126", "terms": [ "forming surface" ] }, { "element_identifier": "120", "terms": [ "die" ] }, { "element_identifier": "130", "terms": [ "tensioning mem...	['1. An induction heating cell (100) comprising: a die (120), wherein the die comprises a first side (122) and a second side (124), the die further comprising a forming surface (126); an induction heater (140), wherein at least a portion of the induction heater is disposed adjacent to the forming surface of the die, th...	false	[ "126", "120", "16", "120", "130", "130", "130", "137", "4" ]
EP_3500065_B1 (4).png	EP3500065B1	INDUCTION HEATING CELLS COMPRISING TENSIONING MEMBERS WITH NON-MAGNETIC METAL CORES	[ "FIG5" ]	[ "FIG5 illustrates an example of arranging two sets of tensioning members in a die, in accordance with some examples" ]	[ "In some examples, induction heating cell 100 further comprises second tensioning member 160 extending through die 120 parallel to plane 104 as, for example, shown in FIG5. The direction, along which second tensioning member 160 extends, is referred to as a transverse direction or the Y-direction. The projection of...	20	184	schematic	B	[ { "element_identifier": "17", "terms": [ "supports INTERNATIONAL PAPER CO" ] }, { "element_identifier": "5", "terms": [ "about", "second side can be" ] }, { "element_identifier": "160", "terms": [ "second tensioning member" ] }, { "element_...	['1. An induction heating cell (100) comprising: a die (120), wherein the die comprises a first side (122) and a second side (124), the die further comprising a forming surface (126); an induction heater (140), wherein at least a portion of the induction heater is disposed adjacent to the forming surface of the die, th...	false	[ "17", "104", "120", "130", "5", "160" ]
EP_3500065_B1 (6).png	EP3500065B1	INDUCTION HEATING CELLS COMPRISING TENSIONING MEMBERS WITH NON-MAGNETIC METAL CORES	[ "FIG8" ]	[ "FIG8 illustrates a block diagram of an example of an aircraft, in accordance with some examples " ]	[ "As shown in FIG8, aircraft 902 produced by illustrative method 900 includes airframe 918 with plurality of systems 920, and interior 922. Examples of high-level systems 920 include one or more of propulsion system 924, electrical system 926, hydraulic system 928, and environmental system 930. Any number of other s...	17	90	block diagram	B	[ { "element_identifier": "926", "terms": [ "electrical system" ] }, { "element_identifier": "900", "terms": [ "method" ] }, { "element_identifier": "908", "terms": [ "manufacturing" ] }, { "element_identifier": "904", "terms": [ "design"...	['14. A method of operating an induction heating cell of any of claims 1-13, the method comprising: a step of applying heat to a part (190) disposed inside the induction heating cell, wherein: the heat is applied by the induction heater using a magnetic field; and a step of applying pressure to the part disposed over a...	true	[ "900", "7", "904", "906", "908", "912", "914", "916", "920", "1924", "926", "922", "902", "8", "928", "930", "19" ]
EP_3500146_B1.png	EP3500146B1	VACUUM CLEANER NOZZLE HAVING ROTATABLE BRUSH	[ "FIG1", " FIG3" ]	[ "FIG1 shows a first embodiment of a rotatable brush for use in a vacuum cleaner nozzle in accordance with the invention ", "FIG3 shows an embodiment of a vacuum cleaner comprising a vacuum cleaner nozzle in accordance with the invention " ]	[ "A first embodiment of a rotatable brush for use in a vacuum cleaner nozzle in accordance with the invention is shown in FIG1. The rotation around an axis A is caused by a motor which is connected to the rotatable brush B by way of gears or pulley that drive a wheel W. The rotatable brush B has a transparent light ...	39	428	embodiment	A	[]	['1. A vacuum cleaner nozzle (N) comprising: a rotatable brush (B) comprising a light distribution mechanism for distributing light from the rotatable brush (B); a transparent screen (S) through which a user can see the rotatable brush (B); and a drive unit for rotating the rotatable brush (B); characterized by a senso...	true	[ "97", "1", "2", "3" ]
EP_3500158_B1 (2).png	EP3500158B1	CATHETER WITH VARIABLE RADIUS LOOP AND METHOD OF MANUFACTURE	[ "FIG4" ]	[ "FIG4 is a transverse cross-section taken along line A-A in FIG1 " ]	[ "It is contemplated that the radius of curvature of the loop of distal region 16 may be adjustable, for example to conform to the varying sizes of pulmonary vein ostia of patients of different ages. This additional control may be provided, for example, via the use of an activation wire 26, shown in FIG4, that is ad...	15	163	transverse cross-sectional view	A	[ { "element_identifier": "18", "terms": [ "neck region" ] }, { "element_identifier": "28", "terms": [ "wire" ] }, { "element_identifier": "30", "terms": [ "constraint" ] }, { "element_identifier": "26", "terms": [ "wire" ] } ]	['1. A catheter (10) comprising: a catheter body (12) having a proximal region (14), a neck region (18), and a distal region (16) predisposed into at least a partial loop disposed in a plane; a handle (22) joined to the proximal region and including an actuator (24); an activation wire (26) coupled to the actuator (24)...	false	[ "18", "28", "30", "26", "11" ]
EP_3500171_B1 (2).png	EP3500171B1	MODEL REGULARIZED MOTION COMPENSATED MEDICAL IMAGE RECONSTRUCTION	[ "FIG3", " FIG4" ]	[ "FIG3 diagrammatically illustrates an embodiment of masked reconstructed motion phase image ", "FIG4 illustrates an example in a frontal view and a side view of a visceral cavity model fitted in an image of a subject and the corresponding visceral cavity model in a separate view" ]	[ "With reference to FIG3, an embodiment of masked reconstructed motion phase image 300 is diagrammatically illustrated. The masked reconstructed motion phase image 300 is constructed from a reconstructed motion phase volumetric image 228. The masked reconstructed motion phase image 300 includes the segmented anatomi...	45	263	embodiment, nan	A	[ { "element_identifier": "310", "terms": [ "masked portions" ] }, { "element_identifier": "420", "terms": [ "visceral cavity model" ] }, { "element_identifier": "430", "terms": [ "separate view" ] }, { "element_identifier": "220", "terms": [ ...	['1. A medical imaging system (200), comprising: a masking unit (234) configured to construct a mask for each reconstructed volumetric phase image of a plurality of reconstructed volumetric phase images that masks portions of a corresponding image external to an anatomical model fitted to a segmented at least one anato...	true	[ "300", "310", "320", "220", "3", "400", "420", "420", "410", "430", "430", "4", "12" ]
EP_3500171_B1 (3).png	EP3500171B1	MODEL REGULARIZED MOTION COMPENSATED MEDICAL IMAGE RECONSTRUCTION	[ "FIG5" ]	[ "FIG5 flowcharts an embodiment of a method of model regularized motion compensated medical image reconstruction " ]	[ "With reference to FIG5, an embodiment of a method of model regularized motion compensated CT reconstruction is flowcharted. At 500, projection data 212 is received. The projection data 212 can be received directly from the CT scanner 210. The projection data 212 can be received from a storage subsystem, such as th...	15	68	null	A	[ { "element_identifier": "100", "terms": [ "torso" ] }, { "element_identifier": "102", "terms": [ "visceral cavity" ] }, { "element_identifier": "104", "terms": [ "metal object" ] }, { "element_identifier": "106", "terms": [ "streak arti...	['1. A medical imaging system (200), comprising: a masking unit (234) configured to construct a mask for each reconstructed volumetric phase image of a plurality of reconstructed volumetric phase images that masks portions of a corresponding image external to an anatomical model fitted to a segmented at least one anato...	false	[ "500", "510", "520", "530", "540", "550", "560", "570", "580", "5", "13" ]
EP_3500223_B1.png	EP3500223B1	BACKSTOP AND GEAR-SHIFT ARRANGEMENT FOR A WHEELCHAIR WHEEL	[ "FIG1" ]	[ "FIG1 illustrates schematically a wheelchair with a wheel provided with a backstop arrangement according to the present invention" ]	[ "The present invention relates to a wheelchair and more specifically to the main driving wheels of a wheelchair. An exemplifying wheelchair is depicted in FIG1, wherein a wheelchair 1 essentially comprises a seat 2, a back 3, a foot support 4, and two wheels 5. Each of the two wheels 5 is provided with an outer gri...	18	379	schematic	A	[ { "element_identifier": "14", "terms": [ "space" ] }, { "element_identifier": "3", "terms": [ "back" ] }, { "element_identifier": "2", "terms": [ "Canadian patent publication No.", "seat" ] }, { "element_identifier": "5", "terms": [ ...	['1. A wheel assembly comprising a wheel (5) for a wheelchair (1) and a backstop arrangement (10; 30; 70), the wheel (5) being provided with a wheel hub (11; 31; 71) and a wheel axle (12; 32; 72), the backstop arrangement (10; 30; 70) being configured to selectively engage and disengage, respectively, a backstop functi...	false	[ "5", "3", "2", "14" ]
EP_3500226_B1 (6).png	EP3500226B1	SECURED MEDICATION TRANSFER SYSTEM	[ "FIG15" ]	[ "FIG15 is a perspective view of a fourth exemplary vial adaptor coupled to a vial" ]	[ "Referring next to FIG15, a fourth exemplary vial adaptor 400 is shown for use with vial 10. Vial adaptor 400 is similar to the above-described vial adaptor 300, with like reference numerals identifying like elements, except as described below. The illustrative vial adaptor 400 includes a cleaning passageway 430 in...	15	123	perspective view	A	[ { "element_identifier": "400", "terms": [ "vial adaptor" ] }, { "element_identifier": "25", "terms": [ "about" ] } ]	['1. A vial adaptor (100) configured for use with a vial (10) containing a medication and a needle assembly (150) having a needle, the vial adaptor comprising: a substantially hollow body (101) configured to couple with the vial, the body including a side wall (102) and an upper wall (108); a needle opening (120) in th...	false	[ "400", "15", "25" ]
EP_3500306_B1 (2).png	EP3500306B1	TRIPLE COMBINATION OF HISTAMINE-3 RECEPTOR INVERSE AGONISTS, ACETYLCHOLINESTERASE INHIBITORS AND NMDA RECEPTOR ANTAGONIST	[ "FIG2" ]	[ "FIG2 depicts the effect of compound 1 in combination with donepezil and memantine on extracellular levels of acetylcholine in medial prefrontal cortex of male Wistar rats" ]	[ "Treatment with donepezil and memantine produced increase in acetylcholine levels to the maximum of 1726 ± 297 % of basal levels. The increase in acetylcholine after combination of compound 1, donepezil and memantine was significantly higher compared to donepezil and memantine combination. Mean maximum increase in ...	26	105	null	A	[ { "element_identifier": "1", "terms": [ "compound", "compounds" ] }, { "element_identifier": "3", "terms": [ "compound", "compounds" ] }, { "element_identifier": "2", "terms": [ "compound" ] }, { "element_identifier": "0", "terms"...	["8. The compound, N-[4-(1-Cyclobutylpiperidin-4-yloxy)phenyl]-2-(morpholin-4-yl)acetamide or a pharmaceutically acceptable salt thereof for use in combination with acetylcholinesterase inhibitor and NMDA receptor antagonist for the treatment of Alzheimer's disease in a patient, and preferably wherein the use is an adj...	false	[ "40", "20", "20", "40", "60", "80", "100", "120", "140", "160", "180", "200", "220", "240", "2000", "23" ]
EP_3500306_B1 (3).png	EP3500306B1	TRIPLE COMBINATION OF HISTAMINE-3 RECEPTOR INVERSE AGONISTS, ACETYLCHOLINESTERASE INHIBITORS AND NMDA RECEPTOR ANTAGONIST	[ "FIG3" ]	[ "FIG3 depicts the effect of compound 2 in combination with donepezil and memantine on extracellular levels of acetylcholine in medial prefrontal cortex of male Wistar rats" ]	[ "Treatment with donepezil and memantine produced increase in acetylcholine levels to the maximum of 1365 ± 249 % of basal levels. The increase in acetylcholine after combination of compound 2, donepezil and memantine was significantly higher compared to donepezil and memantine combination. Mean maximum increase in ...	26	105	null	A	[ { "element_identifier": "24", "terms": [ "wall." ] }, { "element_identifier": "3", "terms": [ "compound", "compounds" ] }, { "element_identifier": "10", "terms": [ "were positioned" ] }, { "element_identifier": "1", "terms": [ "co...	["8. The compound, N-[4-(1-Cyclobutylpiperidin-4-yloxy)phenyl]-2-(morpholin-4-yl)acetamide or a pharmaceutically acceptable salt thereof for use in combination with acetylcholinesterase inhibitor and NMDA receptor antagonist for the treatment of Alzheimer's disease in a patient, and preferably wherein the use is an adj...	false	[ "3", "4", "1", "1", "10", "40", "40", "80", "120", "160", "200", "240", "2000", "24" ]
EP_3500306_B1 (4).png	EP3500306B1	TRIPLE COMBINATION OF HISTAMINE-3 RECEPTOR INVERSE AGONISTS, ACETYLCHOLINESTERASE INHIBITORS AND NMDA RECEPTOR ANTAGONIST	[ "FIG4" ]	[ "FIG4 depicts the effect of compound 3 in combination with donepezil and memantine on extracellular levels of acetylcholine in medial prefrontal cortex of male Wistar rats" ]	[ "Treatment with donepezil and memantine produced increase in acetylcholine levels to the maximum of 1375 ± 461 % of basal levels. The increase in acetylcholine after combination of compound 3, donepezil and memantine was significantly higher compared to donepezil and memantine combination. Mean maximum increase in ...	26	103	null	A	[ { "element_identifier": "5", "terms": [ "patient" ] }, { "element_identifier": "10", "terms": [ "were positioned" ] } ]	["7. The combination as claimed in any one of the claim 1 to 6, for use in the treatment of cognitive disorders in a patient, preferably wherein the cognitive disorder is selected from Alzheimer's disease, schizophrenia, Parkinson's disease, Lewy body dementia, vascular dementia, frontotemporal dementia, Down syndrome ...	false	[ "4000", "3000", "2000", "1000", "5", "10", "40", "80", "120", "160", "200", "240", "2400", "25" ]
EP_3500306_B1 (5).png	EP3500306B1	TRIPLE COMBINATION OF HISTAMINE-3 RECEPTOR INVERSE AGONISTS, ACETYLCHOLINESTERASE INHIBITORS AND NMDA RECEPTOR ANTAGONIST	[ "FIG5" ]	[ "FIG5 depicts the effect of compound 1 in combination with donepezil and memantine on evoked theta levels in dorsal hippocampus of anesthetized male Wistar rats " ]	[ "Treatment with donepezil and memantine combination produced moderate increase in hippocampal θ power. Compound 1 in combination with donepezil and memantine produced significant increase in θ power levels and peak levels reached up to 167 ± 11 % of pre-dose levels. The effect in triple combination was observed to ...	25	103	null	A	[ { "element_identifier": "100", "terms": [ "about", "R-α-methylhistamine", "dialysate basal concentrations with" ] }, { "element_identifier": "5", "terms": [ "patient" ] }, { "element_identifier": "60", "terms": [ "about", "another" ] ...	["7. The combination as claimed in any one of the claim 1 to 6, for use in the treatment of cognitive disorders in a patient, preferably wherein the cognitive disorder is selected from Alzheimer's disease, schizophrenia, Parkinson's disease, Lewy body dementia, vascular dementia, frontotemporal dementia, Down syndrome ...	false	[ "5", "20", "40", "50", "60", "70", "80", "90", "100", "110", "120", "100", "47", "26" ]
EP_3500379_B1 (5).png	EP3500379B1	PROCESSES FOR RECOVERING SAND AND ACTIVE CLAY FROM FOUNDRY WASTE	[ "FIG9" ]	[ "FIG9 depicts visual results of an evaluation of rinser/shaker tests on a Plant A sand stream using a pre-slurry" ]	[ "FIG9 depicts visual results of an evaluation of rinser/shaker tests on a Plant A sand stream using a pre-slurry. The feed to the rinser/shaker table was a slurry of the sand that was 30% solids. As in the no pre-slurry case, as the sand moves through each rinse, the clay and carbon are removed from the surface of ...	23	89	null	B	[ { "element_identifier": "50", "terms": [ "about" ] }, { "element_identifier": "10", "terms": [ "stream" ] }, { "element_identifier": "2", "terms": [ "stream" ] }, { "element_identifier": "1", "terms": [ "stream", "Set" ] }, ...	['1. A method of reclaiming clean sand and active clay from foundry waste comprising: providing dust and sand from a molding process in a foundry, wherein the dust and sand comprise clay including active clay and dead clay; rinsing a slurry comprising the dust and sand to remove clay from the sand and dust, wherein the...	false	[ "38" ]
EP_3500379_B1 (6).png	EP3500379B1	PROCESSES FOR RECOVERING SAND AND ACTIVE CLAY FROM FOUNDRY WASTE	[ "FIG10" ]	[ "FIG10 depicts visual results of an evaluation of rinser/shaker tests on a Plant A dust stream with no pre-slurry" ]	[ "FIG10 depicts visual results of an evaluation of rinser/shaker tests on a Plant A dust stream with no pre-slurry. The feed to the rinser/shake table was dry dust feed. Raw dust was used as input to the rinser/shaker and samples were taken and tested after the first, second, third, fourth, and fifth rinse. The raw ...	23	129	null	B	[ { "element_identifier": "50", "terms": [ "about" ] }, { "element_identifier": "10", "terms": [ "stream" ] }, { "element_identifier": "2", "terms": [ "stream" ] }, { "element_identifier": "1", "terms": [ "stream", "Set" ] }, ...	['1. A method of reclaiming clean sand and active clay from foundry waste comprising: providing dust and sand from a molding process in a foundry, wherein the dust and sand comprise clay including active clay and dead clay; rinsing a slurry comprising the dust and sand to remove clay from the sand and dust, wherein the...	false	[ "39", "10" ]
EP_3500383_B1 (5).png	EP3500383B1	POWER SKIVING PRESSURE ANGLE CORRECTION WITHOUT TOOL GEOMETRY CHANGE	[ "FIG6" ]	[ "FIG6 shows the reference profile and one involute of a cutting blade before and after a corrective radial shift" ]	[ "FIG6 shows the reference profile 34 and the involute 30 generated by the reference profile 34, respectively by unrolling the virtual cord Ib from the base circle 39. The involute triangle Ib → Rb → (DOtool/2-ΔR) enables the determination of the pressure angle at point 32 with: α+Δα = arccos[Rb / (DOtool/2-ΔR)]...	19	66	null	B	[ { "element_identifier": "35", "terms": [ "involute" ] }, { "element_identifier": "30", "terms": [ "involute" ] }, { "element_identifier": "39", "terms": [ "base circle" ] }, { "element_identifier": "37", "terms": [ "involute reference l...	['4. The method of claim 1 wherein changing said initial radial position of said cutting blades comprises shifting the position of each of said plurality of cutting blades in the lengthwise direction thereof.']	false	[ "36", "37", "31", "35", "30", "34", "33", "39", "32", "2", "26", "2", "15" ]
EP_3500422_B1 (1).png	EP3500422B1	A METHOD FOR MANUFACTURING CONTACT LENSES	[ "FIG2" ]	[ "FIG2 is a flow chart showing a method of manufacturing a contact lens in accordance with a first example method" ]	[ "FIG2 shows a flow chart of an example method of manufacturing a contact lens. In a first step a tubular mold having a diameter corresponding to the diameter of the finished contact lens is assembled 50. To produce the rod a predetermined quantity of liquid lens precursor composition is first poured 52a into the mo...	20	238	flowchart	B	[ { "element_identifier": "103", "terms": [ "mold" ] }, { "element_identifier": "2", "terms": [ "electronic devices" ] }, { "element_identifier": "56", "terms": [ "is removed" ] }, { "element_identifier": "104", "terms": [ "device", ...	['3. A method according to any previous claim, wherein manufacturing the rod (101) of lens material comprises curing a quantity of liquid lens precursor composition (105) containing an electronic component (104) in a mold (103).', '7. A method according to any previous claim, wherein the electronic component (104) form...	true	[ "50", "103", "105", "56", "104", "104", "58", "09", "62", "2", "10" ]
EP_3500422_B1.png	EP3500422B1	A METHOD FOR MANUFACTURING CONTACT LENSES	[ "FIG1" ]	[ "FIG1 is a schematic view of a rod of contact lens material in accordance with a first example embodiment" ]	[ "With reference to the drawings, FIG1 shows a schematic view of a rod 1 of lens material in accordance with a first example embodiment. The rod has a circular cross section and incorporates four electronic devices 2. The electronic devices 2 are spaced equidistantly apart along the longitudinal axis of the rod 1. L...	19	77	schematic view	B	[ { "element_identifier": "2", "terms": [ "electronic devices" ] }, { "element_identifier": "1", "terms": [ "rod" ] } ]	['1. A method of manufacturing a contact lens, the method comprising manufacturing a rod (101) of lens material, the rod (101) containing a plurality of electronic components (104) spaced apart along its length, separating the rod (101) into at least one lens blank containing at least one of said electronic components ...	false	[ "2", "1" ]
EP_3500497_B1 (2).png	EP3500497B1	OPEN-WALLED PACK	[ "FIG3" ]	[ "FIG3 is a side view of the pack of FIG1" ]	[ "FIG3 is a view of the pack 100 showing the second wall 108 and first opening 114. The first opening 114 is primarily in the side of the cuboid corresponding to the second wall 108. As shown, the first opening 114 extends from the top 102 of the pack 100 downward to an upper edge 302 of the second wall 108 in a dir...	10	139	side view	B	[ { "element_identifier": "306", "terms": [ "diagonal" ] }, { "element_identifier": "304", "terms": [ "distance" ] }, { "element_identifier": "118", "terms": [ "product", "products" ] }, { "element_identifier": "102", "terms": [ "to...	['1. A pack (100) comprising: a unitary blank (400) folded into a rectangular cuboid, the rectangular cuboid defining: a bottom (104); a top (102) approximately parallel to and opposite of the bottom; and four walls (106,108,110,112) approximately perpendicular to and disposed between the top and the bottom, the four w...	false	[ "102", "118", "306", "114", "106", "110", "304", "108", "14" ]
EP_3500497_B1 (6).png	EP3500497B1	OPEN-WALLED PACK	[ "FIG9" ]	[ "FIG9 is a top view of the pack of FIG1 with the first and second top flap folded over the top" ]	[ "Once the first top flap 432 is folded inward, the second top flap 434 can be folded inward over the first top flap 432. In particular, the second top flap 434 can be folded to an orientation that is perpendicular to the wall panels 406, 408, 410, 412 and covers at least a portion of the products in the pack 100, w...	21	196	view	B	[ { "element_identifier": "420", "terms": [ "wall fold lines" ] }, { "element_identifier": "440", "terms": [ "tab" ] }, { "element_identifier": "416", "terms": [ "top fold line", "top fold lines" ] }, { "element_identifier": "452", "terms...	['1. A pack (100) comprising: a unitary blank (400) folded into a rectangular cuboid, the rectangular cuboid defining: a bottom (104); a top (102) approximately parallel to and opposite of the bottom; and four walls (106,108,110,112) approximately perpendicular to and disposed between the top and the bottom, the four w...	false	[ "112", "102", "416", "436", "438", "452", "440", "106", "420", "408", "422", "108", "10", "104", "20" ]
EP_3500682_B1 (4).png	EP3500682B1	CLOSED LINEAR DNA PRODUCTION	[ "FIG10A", " FIG10B" ]	[ "FIG10A shows the linear sequence of introduced stem loop used in Example 1 This also shows the primers used in Example 1 and the binding position in the loop is shown ", "FIG10B is a photograph of an 0 8% agarose gel of TelN digest of amplified products produced from different priming strategies" ]	[ "Preferably, the central section of the motif or loop includes a sequence for a primer binding site. A primer binding site is a region of a nucleotide sequence where a primer binds or anneals to start replication. The primer specifically anneals to the primer binding site due to the complementary nature of their se...	53	639	null	C	[ { "element_identifier": "15", "terms": [ "priming site", "ID NO", "DNA concentrations determined at" ] }, { "element_identifier": "3", "terms": [ "protelomerase recognition sequences", "Version", "Table" ] }, { "element_identifier": "2", "t...	['9. A method as claimed in any preceding claim wherein said template comprises one or more additional protelomerase recognition sequences.']	true	[ "15", "1", "2", "3", "3", "6", "75" ]
EP_3500682_B1 (5).png	EP3500682B1	CLOSED LINEAR DNA PRODUCTION	[ "FIG11" ]	[ "FIG11 depicts a plasmid map for the vectors used in Example 1 Various components are depicted" ]	[ "Production of stem loop closed linear DNA from a plasmid template. Table 1 below shows the conditions under which plasmid proTLx-K B5X4 eGFP 53SL (see FIG11) was amplified. RCA reactions were setup at room temperature and reagents added in the order indicated. Reactions were carried out in polypropylene tubes and ...	16	147	null	C	[ { "element_identifier": "1", "terms": [ "in Example" ] }, { "element_identifier": "2", "terms": [ "protelomerase recognition sequences", "Example", "reaction was then diluted" ] }, { "element_identifier": "3", "terms": [ "protelomerase recognitio...	['1. A cell-free method of producing closed linear deoxyribose nucleic acid (DNA) molecules comprising: (a) contacting a template comprising linear, double stranded DNA molecule covalently closed at each end by a portion of a protelomerase recognition sequence and comprising at least one stem loop motif with a strand-d...	false	[ "3500", "3500", "3000", "500", "3680", "500", "3762", "76", "11" ]
EP_3500867_B1 (1).png	EP3500867B1	BUILT-IN EYE SCAN FOR ADC-BASED RECEIVER	[ "FIG2" ]	[ "FIG2 is a block diagram depicting the receiver according to an example" ]	[ "The receiver 126 generally includes analog-to-digital converter (ADC) circuitry 104 and eye scan circuitry 106. An example structure of the receiver 126 is described further below with respect to FIG2. The receiver 126 receives an analog signal from the transmission medium 160. The ADC circuitry 104 generates a di...	12	345	block diagram	G	[ { "element_identifier": "210", "terms": [ "clock generator" ] }, { "element_identifier": "214", "terms": [ "CTLE" ] }, { "element_identifier": "202", "terms": [ "front end" ] }, { "element_identifier": "216", "terms": [ "ADCs" ] }...	['1. A method of performing an eye-scan in a receiver (126), comprising: generating digital samples from an analog signal input to the receiver (126) based on a sampling clock, the sampling clock phase-shifted with respect to a reference clock based on a phase interpolator, PI, code; equalizing the digital samples base...	false	[ "126", "106", "210", "208", "206", "202", "212", "104", "216", "204", "218", "220", "214", "205", "13" ]
EP_3500867_B1 (2).png	EP3500867B1	BUILT-IN EYE SCAN FOR ADC-BASED RECEIVER	[ "FIG3" ]	[ "FIG3 is a block diagram depicting clock recovery and eye scan circuitry according to an example" ]	[ "FIG3 is a block diagram depicting clock recovery and eye scan circuitry according to an example. The clock recovery circuit 206 includes a phase detector 302 and a digital loop filter 330. The eye scan circuitry 106 includes a control circuit 316, a multiplexer 304, and a multiplexer 326. An input of the phase det...	16	130	block diagram	G	[ { "element_identifier": "327", "terms": [ "phase path" ] }, { "element_identifier": "310", "terms": [ "adder" ] }, { "element_identifier": "306", "terms": [ "gain circuit", "gain circuits" ] }, { "element_identifier": "304", "terms": [ ...	['1. A method of performing an eye-scan in a receiver (126), comprising: generating digital samples from an analog signal input to the receiver (126) based on a sampling clock, the sampling clock phase-shifted with respect to a reference clock based on a phase interpolator, PI, code; equalizing the digital samples base...	false	[ "327", "306", "330", "304", "324", "208", "326", "302", "318", "310", "312", "308", "320", "322", "14", "328", "316" ]
EP_3500867_B1 (3).png	EP3500867B1	BUILT-IN EYE SCAN FOR ADC-BASED RECEIVER	[ "FIG4" ]	[ "FIG4 is a flow diagram depicting a method of performing an eye scan in a receiver according to an example" ]	[ "FIG4 is a flow diagram depicting a method 400 of performing an eye scan in a receiver according to an example. The method 400 can be performed by the SerDes 122 described above. The method 400 begins at step 402, where the control circuit 316 selects an initial offset for the PI code to be used during the eye scan...	20	77	flow diagram	G	[ { "element_identifier": "420", "terms": [ "step" ] }, { "element_identifier": "416", "terms": [ "adaptation process. At step" ] }, { "element_identifier": "412", "terms": [ "at step" ] }, { "element_identifier": "422", "terms": [ "step"...	['1. A method of performing an eye-scan in a receiver (126), comprising: generating digital samples from an analog signal input to the receiver (126) based on a sampling clock, the sampling clock phase-shifted with respect to a reference clock based on a phase interpolator, PI, code; equalizing the digital samples base...	false	[ "400", "402", "404", "406", "408", "410", "412", "414", "416", "418", "420", "422", "4", "15" ]
EP_3500867_B1 (4).png	EP3500867B1	BUILT-IN EYE SCAN FOR ADC-BASED RECEIVER	[ "FIG5" ]	[ "FIG5 illustrates an example eye plot for a binary non-return-to-zero (NRZ) signal" ]	[ "FIG5 illustrates an example eye plot 500 for a binary NRZ signal. The eye plot 500 is formed from the various digital samples collected during the eye scan cycles described above. The eye plot 500 shows the data eye for a UI 502. During each eye scan cycle, the PI code is offset to scan across an axis 504 represen...	20	128	plot	G	[ { "element_identifier": "504", "terms": [ "axis" ] }, { "element_identifier": "500", "terms": [ "eye plot" ] }, { "element_identifier": "502", "terms": [ "UI" ] } ]	['7. The method of any of claims 1-6, wherein the plurality of cycles are performed until the PI code has been updated to cover at least one unit interval, UI, of the analog signal.']	false	[ "500", "502", "5", "504", "16" ]
EP_3500867_B1.png	EP3500867B1	BUILT-IN EYE SCAN FOR ADC-BASED RECEIVER	[ "FIG1" ]	[ "FIG1 is a block diagram depicting an example of a serial communication system" ]	[ "FIG1 is a block diagram depicting an example of a serial communication system 100. The serial communication system 100 comprises a transmitter 112 coupled to a receiver 126 over transmission medium 160. The transmitter 112 can be part of a serializer-deserializer (SerDes) 116. The receiver 126 can be part of a Ser...	13	346	block diagram	G	[ { "element_identifier": "122", "terms": [ "SerDes" ] }, { "element_identifier": "160", "terms": [ "transmission medium" ] }, { "element_identifier": "128", "terms": [ "circuitry" ] }, { "element_identifier": "116", "terms": [ "SerDes" ...	['1. A method of performing an eye-scan in a receiver (126), comprising: generating digital samples from an analog signal input to the receiver (126) based on a sampling clock, the sampling clock phase-shifted with respect to a reference clock based on a phase interpolator, PI, code; equalizing the digital samples base...	false	[ "100", "116", "112", "122", "126", "104", "106", "128", "160", "110", "120", "12" ]
EP_3500908_B1 (4).png	EP3500908B1	SUPPORTING AN AUGMENTED-REALITY SOFTWARE APPLICATION	[ "FIG8" ]	[ "FIG8 shows another embodiment of the processing means comprised in the computing device for supporting an AR software application" ]	[ "In FIG8 an alternative embodiment 800 of processing means 125 is illustrated. Similar to processing means 700, processing means 800 comprises one or more interfaces 801 (\"I/O\" in FIG8) for controlling and/or receiving information from other components comprised in computing device 120/500/600, such as camera 121...	19	325	embodiment	G	[ { "element_identifier": "801", "terms": [ "interfaces" ] }, { "element_identifier": "704", "terms": [ "computer-executable instructions" ] }, { "element_identifier": "701", "terms": [ "interfaces" ] }, { "element_identifier": "802", "terms": ...	['1. A computing device (120; 500; 600) for supporting an Augmented-Reality, AR, software application, the computing device comprising processing means (125) being operative to: for each one of at least two candidate physical locations (131, 132; 231, 232) for placing a current virtual object (104; 204), where the curr...	true	[ "7", "700", "704", "701", "8", "800", "802", "801", "21" ]
EP_3500923_B1 (1).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG2" ]	[ "FIG2 illustrates foiling an eavesdropper in accordance with an embodiment" ]	[ "FIG2 illustrates foiling an eavesdropper in a typical use case. Entropy source 202 is compromised by a determined entity. For example, the manufacturer of a hardware-based entropy generator 202 may have conceded data to a government that shows that the entropy generator is slightly skewed. The government may be ab...	10	70	null	G	[ { "element_identifier": "210", "terms": [ "timers" ] }, { "element_identifier": "202", "terms": [ "source", "entropy generator" ] }, { "element_identifier": "242", "terms": [ "PRNG" ] }, { "element_identifier": "262", "terms": [ "...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "200", "202", "204", "210", "242", "208", "260", "258", "256", "254", "262", "47" ]
EP_3500923_B1 (2).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG3" ]	[ "FIG3 is a sequence diagram in accordance with an embodiment" ]	[ "FIG3 is a sequence diagram for system 300 with time running from top to bottom. At a first time, source 302 supplies entropy 318a to entropy collector 306. That entropy is forwarded as seed 336a immediately to PRNG 342. At periodic time intervals following, at frequency 308, entropies 318b, 318c, 318d, 318e, 318f,...	10	99	sequence diagram	G	[ { "element_identifier": "310", "terms": [ "at frequency", "frequencies", "frequency" ] }, { "element_identifier": "338", "terms": [ "seed" ] }, { "element_identifier": "334", "terms": [ "accumulation buffer" ] }, { "element_identifier...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "300", "30", "334", "308", "3189", "34", "310", "334", "348", "334", "334", "338", "334", "48" ]
EP_3500923_B1 (3).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG4" ]	[ "FIG4 is a timing diagram with two entropy source sampling frequencies in accordance with an embodiment" ]	[ "FIG4 is a timing diagram with two entropy source sampling frequencies in accordance with an embodiment. A representation of first timer 408 is shown at the top of the figure. Every leading edge or downward edge represents a timer event. Nominally, first timer 408 fires at every vertical line. In the figure, the pu...	16	92	diagram	G	[ { "element_identifier": "4", "terms": [ "required" ] }, { "element_identifier": "414", "terms": [ "random jitter" ] }, { "element_identifier": "410", "terms": [ "second timer" ] }, { "element_identifier": "408", "terms": [ "first timer"...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "414", "408", "49", "410", "4" ]
EP_3500923_B1 (4).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG5" ]	[ "FIG5 is a flowchart illustrating a process in accordance with an embodiment" ]	[ "FIG5 is a flowchart illustrating process 500 in accordance with an embodiment. The process can be implemented by computer by executing instructions in a processor or otherwise. In operation 501, a repeating time for a first frequency is set. In operation 502, a repeating second timer for a second frequency is set,...	12	237	flowchart	G	[ { "element_identifier": "32", "terms": [ "OpenSSL reads" ] }, { "element_identifier": "256", "terms": [ "decryption key" ] }, { "element_identifier": "1", "terms": [ "OpenSSL version" ] }, { "element_identifier": "0", "terms": [ ">" ...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "500", "501", "502", "503", "505", "504", "506", "507", "50" ]
EP_3500923_B1 (5).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG6" ]	[ "FIG6 is a flowchart illustrating a process in accordance with an embodiment" ]	[ "FIG6 is a flowchart illustrating process 600 in accordance with an embodiment. The process can be implemented by computer by executing instructions in a processor or otherwise. In operation 601, asynchronous timers of different frequencies from one another that are not, in this case, harmonics of each other are se...	12	249	flowchart	G	[ { "element_identifier": "32", "terms": [ "OpenSSL reads" ] }, { "element_identifier": "256", "terms": [ "decryption key" ] }, { "element_identifier": "1", "terms": [ "OpenSSL version" ] }, { "element_identifier": "0", "terms": [ ">" ...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "009", "01", "601", "602", "603", "604", "605", "8", "606", "607", "608", "609", "6", "51" ]
EP_3500923_B1 (6).png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG7" ]	[ "FIG7 illustrates an exemplary computer system, in which various embodiments of the present invention may be implemented " ]	[ "FIG7 illustrates an exemplary computer system 700, in which various embodiments of the present invention may be implemented. The system 700 may be used to implement any of the computer systems described above. As shown in the figure, computer system 700 includes a processing unit 704 that communicates with a numbe...	18	109	null	G	[ { "element_identifier": "32", "terms": [ "OpenSSL reads" ] }, { "element_identifier": "256", "terms": [ "decryption key" ] }, { "element_identifier": "1", "terms": [ "OpenSSL version" ] }, { "element_identifier": "0", "terms": [ ">" ...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "704", "734", "700", "732", "706", "708", "702", "724", "52", "720", "722", "710", "712", "714", "716", "718", "726", "728", "730" ]
EP_3500923_B1.png	EP3500923B1	COLLECTING ENTROPY FROM DIVERSE SOURCES	[ "FIG1" ]	[ "FIG1 illustrates an entropy module in accordance with an embodiment" ]	[ "FIG1 illustrates an entropy module in system 100. In entropy module 106, timers 108 and 110 are set up to periodically poll, or otherwise collect or gather, entropy (i.e., random bits or as otherwise known in the art) from first entropy source 102 or second entropy source 104, respectively. The frequencies of poll...	10	94	null	G	[ { "element_identifier": "142", "terms": [ "PRNG" ] }, { "element_identifier": "104", "terms": [ "second entropy source" ] }, { "element_identifier": "118", "terms": [ "entropy" ] }, { "element_identifier": "112", "terms": [ "timer" ...	['1. A method for generating entropy in a computing device, the method comprising: setting a repeating first timer for a first frequency; setting a repeating second timer for a second frequency; collecting a predetermined number of first bits from a first entropy source at the first frequency, the predetermined number ...	false	[ "100", "118", "102", "108", "26", "118", "130", "114", "112", "106", "140", "142", "150", "144", "146", "148", "16", "128", "110", "238", "120", "46", "120", "104", "138", "334", "132" ]
EP_3500965_B1 (3).png	EP3500965B1	SPEED CONTROL FOR A FULL STOP OF AN AUTONOMOUS DRIVING VEHICLE	[ "FIG6" ]	[ "FIG6 is a flow diagram illustrating a process of making a full stop of an autonomous vehicle according to a comparative example suitable for understanding the invention" ]	[ "FIG6 is a flow diagram illustrating a process of making a full stop of an autonomous vehicle according to a comparative example suitable for understanding the invention. Process 600 may be performed by processing logic which may include software, hardware, or a combination thereof. For example, process 600 may be ...	27	198	flow diagram	B	[ { "element_identifier": "10", "terms": [ "given stop location.DE", "move" ] }, { "element_identifier": "2", "terms": [ "second vehicle.EP" ] }, { "element_identifier": "100", "terms": [ "network configuration" ] }, { "element_identifier": "...	['3. The method of claim 2, wherein the first deceleration rate (A) is determined based on the following formula: A = k ∗ V 2 /2S, wherein k is a constant, V represents the current speed (V C ), and S represents the distance (S) between the first location and the second location, preferably, the constant k is approxima...	false	[ "009", "601", "602", "3", "603", "604", "20" ]
EP_3500968_B1 (1).png	EP3500968B1	METHOD AND APPARATUS TO SECURE AND PROTECT DATA-CENTERS AND GENERALIZED UTILITY-BASED CLOUD COMPUTING ENVIRONMENTS FROM UNINVITED GUESTS IN THE FORM OF BOTH HARDWARE AND SOFTWARE	[ "FIG2" ]	[ "FIG2 is a block diagram illustrating a node that is executing a virtual agent, according to some embodiments" ]	[ "FIG2 is a block diagram illustrating a node that is executing a virtual agent, according to some embodiments. The node 130 includes hardware resources 140 such as computing hardware 210, storage hardware 220, and networking hardware 230. The node 130 executes a hypervisor 150 or VMM that allows a virtual agent 160...	19	317	block diagram	G	[ { "element_identifier": "230", "terms": [ "networking hardware" ] }, { "element_identifier": "160", "terms": [ "virtual agent", "virtual agents" ] }, { "element_identifier": "130", "terms": [ "node", "nodes" ] }, { "element_identifier...	['1. A method implemented by a network device communicatively coupled to a datacenter to detect a presence of unauthorized software and hardware in the datacenter, the method comprising: initiating (310) deployment of a virtual agent on a node in the datacenter, wherein the virtual agent is to perform a security scan o...	false	[ "130", "160", "240", "250", "260", "165", "150", "140", "210", "220", "270", "230", "2", "13" ]
EP_3500968_B1 (2).png	EP3500968B1	METHOD AND APPARATUS TO SECURE AND PROTECT DATA-CENTERS AND GENERALIZED UTILITY-BASED CLOUD COMPUTING ENVIRONMENTS FROM UNINVITED GUESTS IN THE FORM OF BOTH HARDWARE AND SOFTWARE	[ "FIG3" ]	[ "FIG3 is a flow diagram of a process for detecting unauthorized software and hardware in a datacenter using a virtual agent, according to some embodiments" ]	[ "FIG3 is a flow diagram of a process for detecting unauthorized software and hardware in a datacenter using a virtual agent, according to some embodiments. In one embodiment, the process may be implemented by a network device 100 (e.g., cloud orchestration component 110 of network device 100) that is communicativel...	26	135	flow diagram	G	[ { "element_identifier": "2", "terms": [ "Layer" ] }, { "element_identifier": "120", "terms": [ "datacenter" ] }, { "element_identifier": "130", "terms": [ "node", "nodes" ] }, { "element_identifier": "140", "terms": [ "hardware re...	['4. The method of claim 3, wherein the corrective action includes any one of migrating a tenant on the node to another node in the datacenter, installing a honeypot, decommissioning of the node, moving a tenant off the node, reinstalling an image on the node, and deploying another virtual agent in the datacenter.', '6...	false	[ "14" ]
EP_3500968_B1 (3).png	EP3500968B1	METHOD AND APPARATUS TO SECURE AND PROTECT DATA-CENTERS AND GENERALIZED UTILITY-BASED CLOUD COMPUTING ENVIRONMENTS FROM UNINVITED GUESTS IN THE FORM OF BOTH HARDWARE AND SOFTWARE	[ "FIG4" ]	[ "FIG4 is block diagram of a network device that can implement the detection of the presence of unauthorized software and hardware in a datacenter using a virtual agent, according to some embodiments " ]	[ "FIG4 is block diagram of a network device that can implement the detection of the presence of unauthorized software and hardware in a datacenter using a virtual agent, according to some embodiments. The network device 100 includes a set of one or more processor(s) 410, which may be general purpose and/or a special...	33	170	block diagram	G	[ { "element_identifier": "430", "terms": [ "machine readable storage medium" ] }, { "element_identifier": "100", "terms": [ "network device" ] }, { "element_identifier": "110", "terms": [ "cloud orchestration component" ] } ]	['12. A network device (100) configured to detect a presence of unauthorized software and hardware in a datacenter, the network device comprising: a set of one or more processors (410); and a non-transitory machine-readable storage medium (430) having stored therein a cloud orchestration component (110), which when exe...	false	[ "100", "410", "420", "430", "110", "4", "15" ]
EP_3500968_B1.png	EP3500968B1	METHOD AND APPARATUS TO SECURE AND PROTECT DATA-CENTERS AND GENERALIZED UTILITY-BASED CLOUD COMPUTING ENVIRONMENTS FROM UNINVITED GUESTS IN THE FORM OF BOTH HARDWARE AND SOFTWARE	[ "FIG1" ]	[ "FIG1 is a block diagram of a datacenter in which a virtual agent can be deployed, according to some embodiments" ]	[ "FIG1 is a block diagram of a datacenter in which a virtual agent can be deployed, according to some embodiments. As shown, the datacenter 120 includes nodes 130A-D. Each node 130 may be an electronic device or network device that includes hardware resources such as computing hardware (e.g., processors), storage ha...	21	164	block diagram	G	[ { "element_identifier": "160", "terms": [ "virtual agent", "virtual agents" ] }, { "element_identifier": "120", "terms": [ "datacenter" ] }, { "element_identifier": "100", "terms": [ "network device" ] }, { "element_identifier": "115", ...	['4. The method of claim 3, wherein the corrective action includes any one of migrating a tenant on the node to another node in the datacenter, installing a honeypot, decommissioning of the node, moving a tenant off the node, reinstalling an image on the node, and deploying another virtual agent in the datacenter.', '6...	false	[ "100", "115", "110", "4", "160", "165", "150", "140", "120", "1", "12" ]
EP_3500986_B1 (3).png	EP3500986B1	METHOD AND SYSTEM FOR ESTIMATING THE MASS OF A STOCKPILE	[ "FIG5a" ]	[ "FIG5a is a table of data showing the force upon a layer influences the density, while FIG5b charts data from FIG5a" ]	[ "A representative sample of material was taken and placed in a cylindrical test cell having calibrated dimensions. Details are shown in the table of FIG5a. The volume of the cylindrical test cell was 3244cm3 and the surface area of the internal footprint was 181cm2. The mass of the wheat sample was 2707.05g. The in...	22	323	table	G	[ { "element_identifier": "7", "terms": [ "andFigure" ] }, { "element_identifier": "4", "terms": [ "datum" ] }, { "element_identifier": "2", "terms": [ "surface" ] }, { "element_identifier": "6", "terms": [ "surface" ] }, { "e...	['1. A method of estimating the mass of material in a stockpile, the method including: obtaining an upper surface profile of said stockpile; the method being characterised by : defining a plurality of layers in the stockpile based on the upper surface profile, wherein each layer is defined to extend parallel to the up...	false	[ "0", "13", "3", "742", "7460", "7575", "7768", "7793", "7460", "7420", "15035", "14840", "22734", "22260", "59360", "30502", "29680", "38296", "37100", "46126", "44520", "54003", "51940", "61906", "59360", "13", "2", "4", "15", "5", "6", "7830", "7", ...
EP_3500986_B1 (5).png	EP3500986B1	METHOD AND SYSTEM FOR ESTIMATING THE MASS OF A STOCKPILE	[ "FIG6a" ]	[ "FIG6a is a table of data showing the recorded mass of a number of stockpiles against estimated (and actual) mass values, while FIG6b charts data from FIG6a" ]	[ "FIG6a tabulates a real-world scenario in which the mass of material in a number of bunkers (column P) was to be audited for a client. The stock volume (column Q) and a density, referred to as the \"bulk density\" (column R) were provided by the client for each bunker and used to estimate the mass (column S) using ...	30	75	table	G	[ { "element_identifier": "2", "terms": [ "surface" ] }, { "element_identifier": "4", "terms": [ "datum" ] }, { "element_identifier": "6", "terms": [ "surface" ] }, { "element_identifier": "1m", "terms": [ "each layer's depth was" ] ...	['2. The method of claim 1, wherein each layer extends parallel to the upper surface profile and has a boundary, configured equidistant, in a vertical direction, from the upper surface profile.', '11. A system for estimating the mass of material in a stockpile, the system including: apparatus operable to obtaining an u...	false	[ "7829", "6669", "18383", "14317", "37453", "3436", "26253", "3476", "14434", "23218", "6395", "1595", "7528", "17627", "14085", "9187", "11452745", "7922", "15" ]
EP_3501017_B1 (1).png	EP3501017B1	MOTION SENSOR WITH ANTIMASK PROTECTION	[ "FIG2" ]	[ "FIG2 is a block diagram of a controller for the motion detector of FIG1 according to one embodiment" ]	[ "FIG2 is a block diagram of the microcontroller 125 of the motion detector 100 according to one embodiment. The microcontroller 125 includes a plurality of electrical and electronic components that provide power, operational control, and protection to the components and modules within the microcontroller 125. The m...	18	117	block diagram	G	[ { "element_identifier": "6262661", "terms": [ "A1. US" ] }, { "element_identifier": "100", "terms": [ "motion detector" ] }, { "element_identifier": "105", "terms": [ "transmission circuit" ] }, { "element_identifier": "110", "terms": [ ...	['1. A motion detector (100) with antimasking capability, the motion detector (100) comprising: an antenna (131, 135); a dual-channel reception circuit (110, 115), the dual-channel reception circuit (110, 115) configured to receive a reflected radio frequency (RF) signal; and an electronic processor (205) electrically ...	false	[ "125", "305", "310", "11", "315", "2" ]
EP_3501017_B1 (2).png	EP3501017B1	MOTION SENSOR WITH ANTIMASK PROTECTION	[ "FIG3" ]	[ "FIG3 is a timing diagram for controlling operation of the motion detector of FIG1 according to one embodiment" ]	[ "FIG3 illustrates one example of control signals for the transmission circuit 105, the first reception circuit 110, and the second reception circuit 115. The time gate circuit 120 is configured to generate multiple control signals including the transmission control signal 191 to control the shape generator 130, the...	18	371	diagram	G	[ { "element_identifier": "6262661", "terms": [ "A1. US" ] }, { "element_identifier": "100", "terms": [ "motion detector" ] }, { "element_identifier": "105", "terms": [ "transmission circuit" ] }, { "element_identifier": "110", "terms": [ ...	['1. A motion detector (100) with antimasking capability, the motion detector (100) comprising: an antenna (131, 135); a dual-channel reception circuit (110, 115), the dual-channel reception circuit (110, 115) configured to receive a reflected radio frequency (RF) signal; and an electronic processor (205) electrically ...	false	[ "191", "192", "193", "12", "194", "195", "1000", "3" ]

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PatFig Dataset

Introduction

The PatFig Dataset is a curated collection of over 18,000 patent images from more than 7,000 European patent applications, spanning the year 2020. It aims to provide a comprehensive resource for research and applications in image captioning, abstract reasoning, patent analysis, and automated documentprocessing. The overarching goal of this dataset is to advance the research in visually situated language understanding towards more hollistic consumption of the visual and textual data.

Dataset Description

Overview

This dataset includes patent figures accompanied by short and long captions, reference numerals, corresponding terms, and a minimal set of claims, offering a detailed insight into the depicted inventions.

Structure

Image Files: Technical drawings, block diagrams, flowcharts, plots, and grayscale photographs.
Captions: Each figure is accompanied by a short and long caption describing its content and context.
Reference Numerals and Terms: Key components in the figures are linked to their descriptions through reference numerals.
Minimal Set of Claims: Claims sentences summarizing the interactions among elements within each figure.
Metadata: Includes image names, publication numbers, titles, figure identifiers, and more. The detailed descriptions of the fields are available in the Dataset Documentation.

Usage

The PatFig Dataset is intended for use in patent image analysis, document image processing, visual question answering tasks, and image captioning in technical contexts. Users are encouraged to explore innovative applications in related fields.

PatFig Image Captioning Version PatFig VQA Version

Challenges and Considerations

Users should be aware of challenges such as interpreting compound figures. PatFig was built automatically using high-performance machine-learning and deep-learning methods. Therefore, the data might contain noise, which was mentioned in the corresponding paper.

License and Usage Guidelines

The dataset is released under a Creative Commons Attribution-NonCommercial 2.0 Generic (CC BY-NC 2.0) License. It is intended for non-commercial use, and users must adhere to the license terms.

Cite as

@inproceedings{aubakirova2023patfig,
  title={PatFig: Generating Short and Long Captions for Patent Figures},
  author={Aubakirova, Dana and Gerdes, Kim and Liu, Lufei},
  booktitle={Proceedings of the IEEE/CVF International Conference on Computer Vision},
  pages={2843--2849},
  year={2023}
}

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