Quantum Sensors Patent Application Trends 2025: Difference between revisions

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Revision as of 06:04, 13 March 2025

Quantum Sensors Patent Application Filing Activity

Quantum Sensors patent applications in 2025

Top Technology Areas in Quantum Sensors

Top CPC Codes

H10N60/0912 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)
H10N60/12 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)
H10N60/85 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)
G01R33/3607 (No explanation available)
- Count: 1 patents
- Example: 20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)
G01R33/3621 (No explanation available)
- Count: 1 patents
- Example: 20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)
G06N5/04 (No explanation available)
- Count: 1 patents
- Example: 20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)
G06N10/00 (No explanation available)
- Count: 1 patents
- Example: 20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)

Top Companies in Quantum Sensors 2025

File:Top Companies in Quantum Sensors.png

Teknologian tutkimuskeskus VTT Oy

Number of Quantum Sensors patents: 1
Top CPC codes:
- H10N60/0912 (No explanation available): 1 patents
- H10N60/12 (No explanation available): 1 patents
- H10N60/85 (No explanation available): 1 patents
Recent patents:
- 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy) (20250130)

SUMIDA CORPORATION

Number of Quantum Sensors patents: 1
Top CPC codes:
- G01R33/3607 (No explanation available): 1 patents
- G01R33/3621 (No explanation available): 1 patents
Recent patents:
- 20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION) (20250102)

Zapata Computing, Inc.

Number of Quantum Sensors patents: 1
Top CPC codes:
- G06N5/04 (No explanation available): 1 patents
- G06N10/00 (No explanation available): 1 patents
Recent patents:
- 20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.) (20250109)

New Companies in Quantum Sensors (Last Month)

File:New Companies in Quantum Sensors Last Month.png

No new companies detected in the last month.

Emerging Technology Areas in Quantum Sensors

G06N10/00 (No explanation available)
- Count: 1 patents
- Example: 20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)
G06N5/04 (No explanation available)
- Count: 1 patents
- Example: 20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)
G01R33/3621 (No explanation available)
- Count: 1 patents
- Example: 20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)
G01R33/3607 (No explanation available)
- Count: 1 patents
- Example: 20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)
H10N60/85 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)
H10N60/12 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)
H10N60/0912 (No explanation available)
- Count: 1 patents
- Example: 20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)

Top Companies in Emerging Quantum Sensors Technologies 2025

Teknologian tutkimuskeskus VTT Oy: 3 patents
SUMIDA CORPORATION: 2 patents
Zapata Computing, Inc.: 2 patents

Top Inventors in Quantum Sensors

Top Collaborations in Quantum Sensors

Top US States for Quantum Sensors Inventors

Top Cities for Quantum Sensors Inventors

Espoo: 3 inventors
Miyagi: 3 inventors
Kyoto: 2 inventors
Cambridge: 2 inventors
North York: 1 inventors
Somerville: 1 inventors
Toronto: 1 inventors

@@ Line 16: / Line 16: @@
 ** Count: 1 patents
 ** Example: [[20250040449. Superconducting device (Teknologian tutkimuskeskus VTT Oy)]]
-* [[:Category:CPC_G01R33/3607|G01R33/3607]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
+* [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
-* [[:Category:CPC_G01R33/3621|G01R33/3621]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
+* [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
-* [[:Category:CPC_G06N5/04|G06N5/04]] (Inference or reasoning models)
+* [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
-* [[:Category:CPC_G06N10/00|G06N10/00]] (Quantum computing, i.e. information processing based on quantum-mechanical phenomena)
+* [[:Category:CPC_G06N10/00|G06N10/00]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
@@ Line 43: / Line 43: @@
 * Number of Quantum Sensors patents: 1
 * Top CPC codes:
-** [[:Category:CPC_G01R33/3607|G01R33/3607]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits): 1 patents
+** [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available): 1 patents
-** [[:Category:CPC_G01R33/3621|G01R33/3621]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits): 1 patents
+** [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available): 1 patents
 * Recent patents:
 ** [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]] (20250102)
@@ Line 50: / Line 50: @@
 * Number of Quantum Sensors patents: 1
 * Top CPC codes:
-** [[:Category:CPC_G06N5/04|G06N5/04]] (Inference or reasoning models): 1 patents
+** [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available): 1 patents
-** [[:Category:CPC_G06N10/00|G06N10/00]] (Quantum computing, i.e. information processing based on quantum-mechanical phenomena): 1 patents
+** [[:Category:CPC_G06N10/00|G06N10/00]] (No explanation available): 1 patents
 * Recent patents:
 ** [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]] (20250109)
@@ Line 63: / Line 63: @@
 [[File:Emerging_Technology_Areas_in_Quantum_Sensors.png|border|800px]]
-* [[:Category:CPC_G06N10/00|G06N10/00]] (Quantum computing, i.e. information processing based on quantum-mechanical phenomena)
+* [[:Category:CPC_G06N10/00|G06N10/00]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
-* [[:Category:CPC_G06N5/04|G06N5/04]] (Inference or reasoning models)
+* [[:Category:CPC_G06N5/04|G06N5/04]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250013889. Hybrid Quantum-Classical Computer for Bayesian Inference with Engineered Likelihood Functions for Robust Amplitude Estimation (Zapata Computing, Inc.)]]
-* [[:Category:CPC_G01R33/3621|G01R33/3621]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
+* [[:Category:CPC_G01R33/3621|G01R33/3621]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]
-* [[:Category:CPC_G01R33/3607|G01R33/3607]] (MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES  (indicating correct tuning of resonant circuits)
+* [[:Category:CPC_G01R33/3607|G01R33/3607]] (No explanation available)
 ** Count: 1 patents
 ** Example: [[20250004076. NUCLEAR MAGNETIC RESONANCE SENSING DEVICE AND NUCLEAR MAGNETIC RESONANCE SENSING METHOD (SUMIDA CORPORATION)]]

Revision as of 06:04, 13 March 2025

Quantum Sensors Patent Application Filing Activity

Quantum Sensors patent applications in 2025

Top Technology Areas in Quantum Sensors

Top CPC Codes

Top Companies in Quantum Sensors 2025

New Companies in Quantum Sensors (Last Month)

Emerging Technology Areas in Quantum Sensors

Top Companies in Emerging Quantum Sensors Technologies 2025

Top Inventors in Quantum Sensors

Top Collaborations in Quantum Sensors

Top US States for Quantum Sensors Inventors

Top Cities for Quantum Sensors Inventors

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