Panasonic Intellectual Property Management Co., Ltd. patent applications on February 27th, 2025
Patent Applications by Panasonic Intellectual Property Management Co., Ltd. on February 27th, 2025
Panasonic Intellectual Property Management Co., Ltd.: 25 patent applications
Panasonic Intellectual Property Management Co., Ltd. has applied for patents in the areas of H01M4/525 (3), H01M4/02 (3), H01G9/15 (3), H01G9/00 (3), H01M4/62 (2) H01M4/525 (2), H01M10/056 (2), H01G9/10 (2), H01M10/0562 (2), H04S7/303 (1)
With keywords such as: electrode, electrolyte, having, member, surface, oxide, communication, positive, solid, and including in patent application abstracts.
Patent Applications by Panasonic Intellectual Property Management Co., Ltd.
Inventor(s): DAISUKE TABATA of Osaka (JP) for panasonic intellectual property management co., ltd., SHOGO FUJIMOTO of Tokyo (JP) for panasonic intellectual property management co., ltd., TORU OKAZAKI of Osaka (JP) for panasonic intellectual property management co., ltd., NAOFUMI HINO of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): B05B7/06, B05B7/08
CPC Code(s): B05B7/066
Abstract: gas-liquid ejector () includes atomization space () in which flow path () downstream of liquid flow path () is connected to a central part of an end surface of atomization space () on an upstream side, flow path () downstream of gas flow path () is connected to a circumference around the central part of the end surface of atomization space () on the upstream side, and flow path () downstream of gas flow path () has central axis () inclined from central axis () of flow path () downstream of liquid flow path ().
Inventor(s): MASAYA WAKABAYASHI of Osaka (JP) for panasonic intellectual property management co., ltd., SHOKO KUSAMA of Nara (JP) for panasonic intellectual property management co., ltd., SEIJI KOJIMA of Nara (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): C12N15/74, C12N1/20
CPC Code(s): C12N15/74
Abstract: the present disclosure provides a modified promoter with which the amount of expression of a protein-coding gene can be controlled with flexibility. the modified promoter according to the present disclosure is a modified promoter including a base sequence (seq id no: 1) located upstream of a start codon of a slr1841 gene, the base sequence consisting of 348 bases, or a base sequence having 80% or more homology with the base sequence represented by seq id no: 1, the base sequence being modified by at least one selected from the group consisting of (i) replacement of one or more bases included in the base sequence with another base, (ii) deletion of one or more bases included in the base sequence, and (iii) insertion of one or more bases into the base sequence.
Inventor(s): Yosuke MIZOKAMI of Hyogo (JP) for panasonic intellectual property management co., ltd., Norishige NANAI of Osaka (JP) for panasonic intellectual property management co., ltd., Toshihiko SATO of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): G02F1/35, G02F1/365
CPC Code(s): G02F1/3532
Abstract: a first wavelength converting member contains a first wavelength-converting element which produces first spontaneous emissions of light having multiple wavelengths longer than a wavelength of first excitation light. a second wavelength converting member contains a second wavelength-converting element which produces second spontaneous emissions of light having multiple wavelengths longer than a wavelength of a second excitation light. an optical member is interposed between the second wavelength converting member and the first wavelength converting member. a motor rotates the optical member. in the optical member, a plurality of filter portions are arranged along a circumference of a circle centered around a center axis of rotation of the optical member. each of the multiple wavelength ranges includes a wavelength of at least one of the second spontaneous emissions of light having the multiple wavelengths produced by the second wavelength converting member. the wavelength is at least one of the multiple wavelengths.
Inventor(s): Yizhou HUANG of Singapore (SG) for panasonic intellectual property management co., ltd., Chandra Suwandi WIJAYA of Singapore (SG) for panasonic intellectual property management co., ltd., Debdeep PAUL of Singapore (SG) for panasonic intellectual property management co., ltd., Koji MIURA of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): G06N20/20
CPC Code(s): G06N20/20
Abstract: according to an embodiment, a method for determining feature importance in an ensemble model including a plurality of machine learning (ml) models is disclosed. the method includes receiving a dataset comprising input features and a forecast result. the method also includes generating a ranking-based feature list based on the input features. further, the method includes generating a feature importance output based on the ranking-based features lists. furthermore, the method includes determining a weightage value corresponding to each of the plurality of ml models based on an accuracy value associated with the corresponding machine learning model. the method also includes determining a weightage-based feature importance value corresponding to each input feature corresponding to the feature importance output based on the determined weightage value corresponding to each ml model responsible for the corresponding input feature in the feature importance output.
Inventor(s): TAKAYUKI NAGAHARA of Osaka (JP) for panasonic intellectual property management co., ltd., TOMONORI SUGIYAMA of Osaka (JP) for panasonic intellectual property management co., ltd., KAZUHIKO KANEUCHI of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): G09G3/36, B60R13/02, G02F1/137, G06F3/01, G06F3/044, H10K59/50
CPC Code(s): G09G3/3614
Abstract: a display member according to the present disclosure includes an external appearance surface, a display layer having a first surface facing the external appearance surface and a second surface opposite to the first surface and having a light transmission characteristic, and a decorative body disposed facing the second surface of the display layer. the display layer has a display region on the surface on the side of the external appearance surface. the display member causes the output to be visually recognized in the display region when the display layer is turned on, and causes the decorative body to be visually recognized through the display region when the display layer is turned off.
Inventor(s): Hiroki TAKEUCHI of Osaka (JP) for panasonic intellectual property management co., ltd., Kota MORIMOTO of Osaka (JP) for panasonic intellectual property management co., ltd., Ryosuke KIKUCHI of Osaka (JP) for panasonic intellectual property management co., ltd., Hideaki ADACHI of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01B3/10
CPC Code(s): H01B3/10
Abstract: a dielectric material a includes a metal oxide including: zn; a rare-earth element; and mn.
Inventor(s): Hiroki TAKEUCHI of Osaka (JP) for panasonic intellectual property management co., ltd., Ryosuke KIKUCHI of Osaka (JP) for panasonic intellectual property management co., ltd., Kei AMII of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01G4/10
CPC Code(s): H01G4/10
Abstract: a capacitor includes a first electrode, a second electrode, and a dielectric. the dielectric is disposed between the first electrode and the second electrode. the dielectric includes an oxide having a composition represented by hfsigao. this composition satisfies requirements 0.01≤x, 0.05≤y≤0.11, and 0.09≤x+y≤0.15.
Inventor(s): Manabu KANOU of Osaka (JP) for panasonic intellectual property management co., ltd., Ryosuke KIKUCHI of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01G9/00, H01G2/06, H01G9/15
CPC Code(s): H01G9/0032
Abstract: a method for manufacturing a member of a capacitor according to the present disclosure includes forming a modified layer on a valve metal by a cathodic reaction, the modified layer including a metal other than the valve metal. in the manufacturing method, a requirement �/k[v/nm]>�/k[v/nm] is satisfied, where �is a dielectric constant of an oxide of the metal, k[nm/v] is a thickness of a first oxide film of the metal, in formation of the first oxide film by anodic oxidation of the metal, per 1 v of anode potential, el is a dielectric constant of an oxide of the valve metal, and k[nm/v] is a 10 thickness of a second oxide film including the oxide of the valve metal, in formation of the second oxide film by anodic oxidation, per 1 v of anode potential.
Inventor(s): YUTA MATSUKI of Osaka (JP) for panasonic intellectual property management co., ltd., YOUHEI ASHIMORI of Fukui (JP) for panasonic intellectual property management co., ltd., TATSUJI AOYAMA of Kyoto (JP) for panasonic intellectual property management co., ltd., SHINTARO WAKIYAMA of Yamaguchi (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01G9/10, H01G9/00, H01G9/012, H01G9/15
CPC Code(s): H01G9/10
Abstract: an electrolytic capacitor includes a winding portion, an anode lead member, and a cathode lead member. the winding portion includes an anode foil and a cathode foil that are wound. the anode lead member is connected to the anode foil and extends in a first direction. the cathode lead member is connected to the cathode foil and extends in the first direction. the winding portion has a shape viewed in the first direction, the shape including a first peripheral region and a second peripheral region that are opposed to each other in a second direction intersecting the first direction, and a third peripheral region and a fourth peripheral region that are opposed to each other in a third direction intersecting the first direction and the second direction. the length of the winding portion in the third direction is larger than the length of the winding portion in the second direction. the anode lead member and the cathode lead member are arranged point-symmetrically with respect to a center of the winding portion when viewed in the first direction.
Inventor(s): Masahiko TAIRA of KYOTO FU (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01G9/10, H01G9/00, H01G9/012, H01G9/15
CPC Code(s): H01G9/10
Abstract: a disclosed solid electrolytic capacitor includes at least one capacitor element, an anode lead terminal, a cathode lead terminal, and a packaging resin covering the capacitor element, the anode lead terminal, and the cathode lead terminal. each of the anode lead terminal and the cathode lead terminal has an exposed portion exposed from the packaging resin and a covered portion covered with the packaging resin. the covered portion has a surface region including a first oxide film, and a second oxide film having a higher brittleness than the first oxide film. the surface region has a first surface region and a second surface region in which the amount of the second oxide film per unit area is smaller than that in the first surface region.
Inventor(s): Tooru Matsui of Osaka (JP) for panasonic intellectual property management co., ltd., Yukihiro Oki of Osaka (JP) for panasonic intellectual property management co., ltd., Hiroshi Kawada of Hyogo (JP) for panasonic intellectual property management co., ltd., Mitsuhiro Hibino of Kyoto (JP) for panasonic intellectual property management co., ltd., Kensuke Nakura of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/36, H01M4/02, H01M4/505, H01M4/525, H01M4/62
CPC Code(s): H01M4/366
Abstract: the present invention provides a nonaqueous electrolyte secondary battery which comprises a positive electrode, a negative electrode and a nonaqueous electrolyte, and which is characterized in that: the positive electrode comprises a positive electrode collector and a positive electrode mixture layer that is arranged on the positive electrode collector; the positive electrode mixture layer comprises secondary particles, each of which is composed of aggregated primary particles of a positive electrode active material, and an assembly of a conductive material and the primary particles of the positive electrode active material; and the assembly is present in the gaps among the secondary particles.
Inventor(s): Daiki Fukutome of Osaka (JP) for panasonic intellectual property management co., ltd., Hiroshi Kawada of Hyogo (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/525, C01G53/00
CPC Code(s): H01M4/525
Abstract: this non-aqueous electrolyte secondary battery positive electrode active material is characterized by including a lithium-containing complex oxide composed of secondary particles formed by flocculation of primary particles, the lithium-containing complex oxide including ni, mn, and an additive element m, the additive element m including at least any one element selected from nb, mo, ta, and w, the variation coefficient (standard deviation/arithmetic mean) of the concentration of the at least one element of the nb, the mo, the ta, and the w when the secondary particle cross-section is subjected to epma analysis being 0.7 or less, and the standard deviation of the primary particle size being less than 0.05.
Inventor(s): Motoharu Saito of Osaka (JP) for panasonic intellectual property management co., ltd., Takeshi Ogasawara of Hyogo (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M4/525, H01M4/02, H01M4/505, H01M10/052
CPC Code(s): H01M4/525
Abstract: provided is a non-aqueous electrolyte secondary battery that exhibits an improved charging/discharging efficiency at low cost. a positive electrode active material included in this non-aqueous electrolyte secondary battery includes a lithium-transition metal composite oxide containing 90 mol % or more of ni and mn with respect to the total molar amount of metal elements other than li. the lithium-transition metal composite oxide is composed of single particles and/or secondary particles formed through aggregation of 2-100 of the single particles. the average particle size of the single particles is 0.5-1.5 �m. a boron compound is attached on the surface of the lithium-transition metal composite oxide.
20250070225. BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)
Inventor(s): NORIYUKI UCHIDA of Osaka (JP) for panasonic intellectual property management co., ltd., EIICHI KOGA of Hokkaido (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/04
CPC Code(s): H01M10/0468
Abstract: a battery including: a battery cell including a positive electrode, a negative electrode, and a solid electrolyte layer disposed between the positive electrode and the negative electrode; and a first pressing member in a plate shape provided above the battery cell to press the battery cell, in which the first pressing member includes a first surface in a planar shape that faces the battery cell, and a second surface in a convex shape that opposes the first surface.
[[20250070227. SOLID ELECTROLYTE COMPOSITION, ELECTRODE COMPOSITION, MANUFACTURING METHOD OF SOLID ELECTROLYTE SHEET, MANUFACTURING METHOD OF ELECTRODE SHEET, AND MANUFACTURING METHOD OF BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)]]
Inventor(s): TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd., TAKAAKI TAMURA of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/056
CPC Code(s): H01M10/056
Abstract: a solid electrolyte composition of an aspect according to the present disclosure includes a solvent and an ion conductor dispersed in the solvent. the ion conductor includes a solid electrolyte and a hydroxy group-containing organic compound. the hydroxy group-containing organic compound is an alcohol or a phenol and has a hydrocarbon portion having 15 or more and 30 or less carbon atoms.
[[20250070228. SOLID ELECTROLYTE COMPOSITION, ELECTRODE COMPOSITION, MANUFACTURING METHOD OF SOLID ELECTROLYTE SHEET, MANUFACTURING METHOD OF ELECTRODE SHEET, AND MANUFACTURING METHOD OF BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)]]
Inventor(s): TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd., YASUTAKA TSUTSUI of Osaka (JP) for panasonic intellectual property management co., ltd., TAKAAKI TAMURA of Osaka (JP) for panasonic intellectual property management co., ltd., HIROKI KAMITAKE of Osaka (JP) for panasonic intellectual property management co., ltd., AKIRA KAWASE of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/056
CPC Code(s): H01M10/056
Abstract: a solid electrolyte composition of the present disclosure includes a solvent and an ion conductor including a solid electrolyte, a binder, and a nitrogen-containing organic substance and being dispersed in the solvent. the solid electrolyte includes a sulfide solid electrolyte, the binder includes a styrenic elastomer, and the nitrogen-containing organic substance includes at least one selected from the group consisting of primary amines, secondary amines, aminohydroxy compounds, and diamines. the primary amines, the secondary amines, the aminohydroxy compounds, and the diamines each have at least one selected from the group consisting of chain alkyl groups having 8 or more carbon atoms and chain alkenyl groups having 8 or more carbon atoms. the mass proportion of the nitrogen-containing organic substance to the solid electrolyte is 0.30 mass % or more.
[[20250070239. SOLID ELECTROLYTE COMPOSITION, ELECTRODE COMPOSITION, MANUFACTURING METHOD OF SOLID ELECTROLYTE SHEET, MANUFACTURING METHOD OF ELECTRODE SHEET, AND MANUFACTURING METHOD OF BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)]]
Inventor(s): TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd., YASUTAKA TSUTSUI of Osaka (JP) for panasonic intellectual property management co., ltd., TAKAAKI TAMURA of Osaka (JP) for panasonic intellectual property management co., ltd., HIROKI KAMITAKE of Osaka (JP) for panasonic intellectual property management co., ltd., AKIRA KAWASE of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0562
CPC Code(s): H01M10/0562
Abstract: a solid electrolyte composition of the present disclosure includes a solvent and an ion conductor including a solid electrolyte, a binder, and a nitrogen-containing organic substance and being dispersed in the solvent. the solid electrolyte includes a sulfide solid electrolyte, the binder includes a styrenic elastomer, and the nitrogen-containing organic substance is represented by the following compositional formula (1). where, ris a chain alkyl group having 7 or more and 21 or less carbon atoms or a chain alkenyl group having 7 or more and 21 or less carbon atoms, ris —ch—, —co—, or —nh(ch)—, and rand rare each independently a chain alkyl group having 1 or more and 22 or less carbon atoms, a chain alkenyl group having 2 or more and 22 or less carbon atoms, or hydrogen.
[[20250070239. SOLID ELECTROLYTE COMPOSITION, ELECTRODE COMPOSITION, MANUFACTURING METHOD OF SOLID ELECTROLYTE SHEET, MANUFACTURING METHOD OF ELECTRODE SHEET, AND MANUFACTURING METHOD OF BATTERY_simplified_abstract_(panasonic intellectual property management co., ltd.)]]
Inventor(s): TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd., YASUTAKA TSUTSUI of Osaka (JP) for panasonic intellectual property management co., ltd., TAKAAKI TAMURA of Osaka (JP) for panasonic intellectual property management co., ltd., HIROKI KAMITAKE of Osaka (JP) for panasonic intellectual property management co., ltd., AKIRA KAWASE of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0562
CPC Code(s): H01M10/0562
Abstract:
Inventor(s): YASUTAKA TSUTSUI of Osaka (JP) for panasonic intellectual property management co., ltd., TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0562, H01M4/62, H01M10/0525, H01M10/0585
CPC Code(s): H01M10/0562
Abstract: the solid electrolyte composition of the present disclosure includes a solid electrolyte and a dialkylamine-based dispersant. the dialkylamine-based dispersant is represented by the following compositional formula (1), wherein ris a hydrocarbon group, and rand rare each independently an alkyl group having 1 or more and 3 or less carbon atoms.
Inventor(s): YASUTAKA TSUTSUI of Osaka (JP) for panasonic intellectual property management co., ltd., TATSUYA OSHIMA of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0562, H01M4/62, H01M10/0525, H01M10/0585
CPC Code(s): H01M10/0562
Abstract:
Inventor(s): Shoshi Terada of KANAGAWA KEN (JP) for panasonic intellectual property management co., ltd., Akira Kano of OSAKA FU (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M10/0569, H01M10/0525
CPC Code(s): H01M10/0569
Abstract: a lithium secondary battery includes positive and negative electrodes, and a nonaqueous electrolyte having lithium-ion conductivity. in the lithium secondary battery, lithium metal deposits on the negative electrode during charging, and the lithium metal dissolves from the negative electrode during discharging. the nonaqueous electrolyte contains a lithium salt, and a solvent. the solvent includes a first solvent: a chain ether containing no fluorine element, a second solvent: a chain fluorinated ether having a fluorination rate of 60% or more, and a third solvent: a fluorinated ether having a fluorination rate of more than 0% and less than 60%. when the number of moles of the first solvent contained in the nonaqueous electrolyte is m1, and the number of moles of the third solvent contained in the nonaqueous electrolyte is m3, a molar ratio m1/m3 is 0.25 or more and less than 3.
Inventor(s): Yasufumi Takahashi of HYOGO KEN (JP) for panasonic intellectual property management co., ltd., Masanobu Takeuchi of HYOGO KEN (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H01M50/193, H01M4/02, H01M4/06, H01M4/24, H01M6/06, H01M50/107
CPC Code(s): H01M50/193
Abstract: an alkaline dry battery includes: a bottomed cylindrical case; a hollow cylindrical positive electrode inscribed in the case; a negative electrode filled in a hollow part of the positive electrode and including a negative electrode active material containing zinc; a separator disposed between the positive and negative electrodes; an alkaline electrolytic solution; and a sealing unit. the alkaline electrolytic solution is contained in the positive and negative electrodes, and the separator. the sealing unit covers an opening of the case and includes a negative electrode current collector, a portion of the negative electrode current collector being inserted into the negative electrode. an additive is packed in a gap between the negative electrode and the sealing unit. the additive includes a wax component having a melting point of 60� c. or more and 110� c. or less. the wax component being an aliphatic hydrocarbon compound and/or an ester compound.
Inventor(s): Shigeharu KAWAMOTO of Kanagawa (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H04N5/262, B60R1/12, B60R1/22, H04N7/18, H04N23/698
CPC Code(s): H04N5/2628
Abstract: an imaging apparatus is disclosed. the imaging apparatus includes an imaging element and an optical system. on the imaging element, a plurality of pixels is arranged in a two-dimensional manner. the imaging element generates image data on the basis of output of the plurality of pixels. the optical system forms, on an imaging plane of the imaging element, an image of light from a field at a magnification factor varying with a field angle. an optical axis of the optical system on the imaging plane is positioned away from a center of the imaging plane.
Inventor(s): Koichi OTSUKA of Osaka (JP) for panasonic intellectual property management co., ltd., Takaaki YAMASAKI of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H04N23/84, H04N5/262, H04N23/63
CPC Code(s): H04N23/84
Abstract: an imaging apparatus includes: an imaging sensor configured to capture a subject image to generate original image data; an image processor configured to perform image processing to generate image data, the image processing providing the original image data with a predetermined effect; a storage configured to store a plurality of first parameter sets each defining the effect in the image processing, at least one second parameter set defining a correspondence before and after color information in an image is converted, and designation information for designating one of the plurality of first parameter sets combined with each of the at least one second parameter set; and a controller configured to set a specific first parameter set combined with a specific second parameter set to one of the plurality of first parameter sets designated in the designation information when reading the specific second parameter set in the at least one second parameter set from the storage.
Inventor(s): Minami NAKA of Osaka (JP) for panasonic intellectual property management co., ltd., Shuji SAIKI of Nara (JP) for panasonic intellectual property management co., ltd., Akihisa KAWAMURA of Osaka (JP) for panasonic intellectual property management co., ltd., Satoshi TAKAYAMA of Mie (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H04R1/02
CPC Code(s): H04R1/025
Abstract: a loudspeaker device includes: a loudspeaker unit; and a casing that defines an internal space in which the loudspeaker unit is housed. the casing includes a baffle board to which the loudspeaker unit is fixed in an orientation that exposes a diaphragm of the loudspeaker unit. the baffle board includes one or more through-holes that establish communication between an external space outside of the casing and the internal space. sound that is emitted from the one or more through-holes has a wavelength with an inverted phase relative to sound emitted directly from the diaphragm to the external space.
Inventor(s): Shunsuke KUHARA of Osaka (JP) for panasonic intellectual property management co., ltd., Stephen William John of Nara (JP) for panasonic intellectual property management co., ltd., Kazunobu Konishi of Osaka (JP) for panasonic intellectual property management co., ltd., Katsuhiko Asai of Nara (JP) for panasonic intellectual property management co., ltd., Kazuo Inoue of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H04S7/00, B64U101/00
CPC Code(s): H04S7/303
Abstract: an unmanned moving body includes a directional speaker that outputs sound in an orientation direction and a processor that obtains one or more instances of sensing data. the processor: determines whether or not a second target is present in a vicinity of a first target in accordance with at least one of the one or more instances of sensing data; calculates a positional relationship between the first target and the second target when it is determined that the second target is present; and determines a first position of the unmanned moving body in accordance with the positional relationship and causes the unmanned moving body to move to the first position, the first position being a position that places the first target and the second target within a range over which the sound from the directional speaker reaches at at least a predetermined quality.
Inventor(s): Taku UENO of Nara (JP) for panasonic intellectual property management co., ltd., Takeshi HATAKEYAMA of Osaka (JP) for panasonic intellectual property management co., ltd.
IPC Code(s): H04W28/02
CPC Code(s): H04W28/0236
Abstract: a wireless communication system includes wireless communication devices capable of performing wireless communication with a wireless communication terminal and each disposed at a different position. the wireless communication devices include: a storage device configured to hold radio wave intensity data corresponding to position information of each of the wireless communication devices; and a processing device configured to, when starting communication with the wireless communication terminal, calculate a region in which interference of radio waves is able to occur based on the radio wave intensity data, calculate a usage status of a communication resource by the wireless communication devices present in the region based on a communication status of the wireless communication devices present in the region among the wireless communication devices, and adjust a communication parameter that defines a transmission amount of data in communication with the wireless communication terminal based on a calculation result of the usage status.
Panasonic Intellectual Property Management Co., Ltd. patent applications on February 27th, 2025
- Panasonic Intellectual Property Management Co., Ltd.
- B05B7/06
- B05B7/08
- CPC B05B7/066
- Panasonic intellectual property management co., ltd.
- C12N15/74
- C12N1/20
- CPC C12N15/74
- G02F1/35
- G02F1/365
- CPC G02F1/3532
- G06N20/20
- CPC G06N20/20
- G09G3/36
- B60R13/02
- G02F1/137
- G06F3/01
- G06F3/044
- H10K59/50
- CPC G09G3/3614
- H01B3/10
- CPC H01B3/10
- H01G4/10
- CPC H01G4/10
- H01G9/00
- H01G2/06
- H01G9/15
- CPC H01G9/0032
- H01G9/10
- H01G9/012
- CPC H01G9/10
- H01M4/36
- H01M4/02
- H01M4/505
- H01M4/525
- H01M4/62
- CPC H01M4/366
- C01G53/00
- CPC H01M4/525
- H01M10/052
- H01M10/04
- CPC H01M10/0468
- H01M10/056
- CPC H01M10/056
- H01M10/0562
- CPC H01M10/0562
- H01M10/0525
- H01M10/0585
- H01M10/0569
- CPC H01M10/0569
- H01M50/193
- H01M4/06
- H01M4/24
- H01M6/06
- H01M50/107
- CPC H01M50/193
- H04N5/262
- B60R1/12
- B60R1/22
- H04N7/18
- H04N23/698
- CPC H04N5/2628
- H04N23/84
- H04N23/63
- CPC H04N23/84
- H04R1/02
- CPC H04R1/025
- H04S7/00
- B64U101/00
- CPC H04S7/303
- H04W28/02
- CPC H04W28/0236