Difference between revisions of "NIPPON TELEGRAPH AND TELEPHONE CORPORATION patent applications published on November 30th, 2023"

Summary of the patent applications from NIPPON TELEGRAPH AND TELEPHONE CORPORATION on November 30th, 2023

NIPPON TELEGRAPH AND TELEPHONE CORPORATION has recently filed several patents related to various technological innovations. These patents cover a range of fields, including wireless communication, user-generated content analysis, battery technology, optical elements, audio signal processing, and voice signal conversion.

In the field of wireless communication, NTT has developed a learning method that uses machine learning to estimate wireless quality. This method involves training a model with measurement data from multiple terminals and continuously updating the model with new data to improve accuracy. This innovation can enhance the performance and reliability of wireless communication systems.

Another patent focuses on a device that can determine if user-generated content is generated by a malicious user or a legitimate user. By calculating characteristic amounts of user-generated content and using a learning process, the device creates a model to distinguish between legitimate and malicious content.

NTT has also developed a relay device with features such as an internal clock, memory, and communication unit for transmitting and receiving signals between a master and a slave. The device uses synchronization signals and a retention time processing unit to ensure accurate signal transmission.

In the field of battery technology, NTT has filed patents for a metal-air battery with a specific electrolytic solution and a primary battery with unique components. These innovations aim to improve battery performance and enhance energy storage capabilities.

NTT has also developed an optical element with a transparent layer that guides light to two photoelectric conversion elements. This element is designed to improve image quality and capture more accurate data.

In the audio signal processing field, NTT has developed techniques for pitch enhancement and high-frequency compensation in decoded sound signals. These innovations aim to improve the quality and naturalness of audio signals.

Lastly, NTT has filed a patent for a device that learns how to convert voice signals using machine learning models and adjustment parameters. This technology enables the conversion of input voice signals into desired voice signals.

Notable applications:

• Learning method for estimating wireless quality using machine learning.
• Device for determining if user-generated content is generated by a malicious user or a legitimate user.
• Relay device with features for accurate signal transmission.
• Metal-air battery with a specific electrolytic solution.
• Primary battery with unique components.
• Optical element with a transparent layer for improved image quality.
• Techniques for pitch enhancement and high-frequency compensation in audio signals.
• Device for converting voice signals using machine learning models.

Patent applications for NIPPON TELEGRAPH AND TELEPHONE CORPORATION on November 30th, 2023

KINETIC CONTROL SUPPORT APPARATUS, KINETIC CONTROL SUPPORT METHOD, AND PROGRAM (18250081)

Main Inventor

Arinobu NIIJIMA

HEAT TRACE AREA EXTRACTION APPARATUS, HEAT TRACE AREA EXTRACTION METHOD AND PROGRAM (18031141)

Main Inventor

Yoshinari SHIRAI

SATELLITE SIGNAL RECEPTION APPARATUS, SATELLITE SIGNAL PROCESSING METHOD AND PROGRAM (18251088)

Main Inventor

Seiji YOSHIDA

OPTICAL CONNECTING STRUCTURE, OPTICAL MODULE AND MANUFACTURING METHOD FOR OPTICAL CONNECTING STRUCTURE (18031859)

Main Inventor

Yohei Saito

OFFLOAD SERVER, OFFLOAD CONTROL METHOD, AND OFFLOAD PROGRAM (18248637)

Main Inventor

Yoji YAMATO

COLLECTION DEVICE, COLLECTION METHOD, AND COLLECTION PROGRAM (18031618)

Main Inventor

Hiroki NAKANO

NEURAL ARCHITECTURE SEARCH SYSTEM AND SEARCH METHOD (18249723)

Main Inventor

Yuki Arikawa

POINT PROCESS LEARNING METHOD, POINT PROCESS LEARNING APPARATUS AND PROGRAM (18249772)

Main Inventor

Yoshiaki TAKIMOTO

INFERENCE DEVICE, INFERENCE METHOD, AND INFERENCE PROGRAM (18034257)

Main Inventor

Atsuhiko MAEDA

SOUND SIGNAL REFINEMENT METHOD, SOUND SIGNAL DECODE METHOD, APPARATUS THEREOF, PROGRAM, AND STORAGE MEDIUM (18031588)

Main Inventor

Ryosuke SUGIURA

SOUND SIGNAL REFINEMENT METHOD, SOUND SIGNAL DECODE METHOD, APPARATUS THEREOF, PROGRAM, AND STORAGE MEDIUM (18031595)

Main Inventor

Ryosuke SUGIURA

SOUND SIGNAL REFINEMENT METHOD, SOUND SIGNAL DECODE METHOD, APPARATUS THEREOF, PROGRAM, AND STORAGE MEDIUM (18032533)

Main Inventor

Ryosuke SUGIURA

AUDIO SIGNAL CONVERSION MODEL LEARNING APPARATUS, AUDIO SIGNAL CONVERSION APPARATUS, AUDIO SIGNAL CONVERSION MODEL LEARNING METHOD AND PROGRAM (18032529)

Main Inventor

Takuhiro KANEKO

SOUND SIGNAL HIGH FREQUENCY COMPENSATION METHOD, SOUND SIGNAL POST PROCESSING METHOD, SOUND SIGNAL DECODE METHOD, APPARATUS THEREOF, PROGRAM, AND STORAGE MEDIUM ([[US Patent Application 18033018. SOUND SIGNAL HIGH FREQUENCY COMPENSATION METHOD, SOUND SIGNAL POST PROCESSING METHOD, SOUND SIGNAL DECODE METHOD, APPARATUS THEREOF, PROGRAM, AND STORAGE MEDIUM simplified abstract (NIPPON TELEGRAPH AND TELEPHONE CORPORATION)|18033018]])

Main Inventor

Ryosuke SUGIURA

PITCH EMPHASIS APPARATUS, METHOD AND PROGRAM FOR THE SAME (18219562)

Main Inventor

Yutaka KAMAMOTO

OPTICAL ELEMENT, IMAGE SENSOR AND IMAGING DEVICE (18031156)

Main Inventor

Masashi MIYATA

Primary Battery (18251042)

Main Inventor

Masaya Nohara

Metal Air Battery (18248964)

Main Inventor

Yuzu Kobayashi

RELAY DEVICE, TIME SYNCHRONIZATION SYSTEM, AND PROGRAM (18031886)

Main Inventor

Yuki YAMADA

DETERMINATION DEVICE, DETERMINATION METHOD, AND DETERMINATION PROGRAM (18031620)

Main Inventor

Hiroki NAKANO

LEARNING METHOD, WIRELESS QUALITY ESTIMATION METHOD, LEARNING DEVICE, WIRELESS QUALITY ESTIMATION DEVICE, AND PROGRAM (18245962)

Main Inventor

Keisuke WAKAO