Patents by Inventor Nir Nossenson
Nir Nossenson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240077647Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: ApplicationFiled: November 6, 2023Publication date: March 7, 2024Inventors: Shimon ELKABETZ, Jacob RIBNIK, Itai ZLOTNIK, Rei GOFFER, Nir NOSSENSON, Daniel Alexander ROTHENBERG, Karl GINTER
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Publication number: 20240027648Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: ApplicationFiled: April 17, 2023Publication date: January 25, 2024Inventors: Shimon ELKABETZ, Itai ZLOTNIK, Rei GOFFER, Jacob RIBNIK, Nir NOSSENSON, Rotem BAR-OR, Karl Ginter
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Patent number: 11846750Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: GrantFiled: March 7, 2023Date of Patent: December 19, 2023Assignee: The Tomorrow Companies Inc.Inventors: Shimon Elkabetz, Jacob Ribnik, Itai Zlotnik, Rei Goffer, Nir Nossenson, Daniel Alexander Rothenberg, Karl Ginter
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Publication number: 20230393751Abstract: Methods and systems for a networked storage system are provided. One method includes predicting an IOPS limit for a plurality of storage pools based on a maximum allowed latency of each storage pool, the maximum allowed latency determined from a relationship between the retrieved latency and a total number of IOPS from a resource data structure; identifying a storage pool whose utilization has reached a threshold value, the utilization based on a total number of IOPS directed towards the storage pool and a predicted IOPS limit; detecting a bully workload based on a numerical value determined from a total number of IOPS issued by the bully workload for the storage pool and a rising step function; and implementing a corrective action to reduce an impact of the bully workload on a victim workload.Type: ApplicationFiled: July 5, 2023Publication date: December 7, 2023Inventors: Nir Nossenson, Kai Niebergall, Francisco Jose Assis Rosa, John Jason Sprague, Omri Kessel
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Patent number: 11740798Abstract: Methods and systems for a networked storage system are provided. One method includes predicting an IOPS limit for a plurality of storage pools based on a maximum allowed latency of each storage pool, the maximum allowed latency determined from a relationship between the retrieved latency and a total number of IOPS from a resource data structure; identifying a storage pool whose utilization has reached a threshold value, the utilization based on a total number of IOPS directed towards the storage pool and a predicted IOPS limit; detecting a bully workload based on a numerical value determined from a total number of IOPS issued by the bully workload for the storage pool and a rising step function; and implementing a corrective action to reduce an impact of the bully workload on a victim workload.Type: GrantFiled: February 14, 2022Date of Patent: August 29, 2023Assignee: NETAPP, INC.Inventors: Nir Nossenson, Kai Niebergall, Francisco Jose Assis Rosa, John Jason Sprague, Omri Kessel
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Publication number: 20230228907Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: ApplicationFiled: March 7, 2023Publication date: July 20, 2023Inventors: Shimon ELKABETZ, Jacob RIBNIK, Itai ZLOTNIK, Rei GOFFER, Nir NOSSENSON, Daniel Alexander ROTHENBERG, Karl GINTER
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Patent number: 11662502Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: GrantFiled: August 2, 2022Date of Patent: May 30, 2023Assignee: The Tomorrow Companies Inc.Inventors: Shimon Elkabetz, Itai Zlotnik, Rei Goffer, Jacob Ribnik, Nir Nossenson, Rotem Bar-Or, Karl Ginter
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Patent number: 11635545Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: GrantFiled: February 16, 2021Date of Patent: April 25, 2023Assignee: The Tomorrow Companies Inc.Inventors: Shimon Elkabetz, Jacob Ribnik, Itai Zlotnik, Rei Goffer, Nir Nossenson, Daniel Alexander Rothenberg, Karl Ginter
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Publication number: 20230106208Abstract: Methods and systems for a networked storage system are provided. One method includes predicting an IOPS limit for a plurality of storage pools based on a maximum allowed latency of each storage pool, the maximum allowed latency determined from a relationship between the retrieved latency and a total number of IOPS from a resource data structure; identifying a storage pool whose utilization has reached a threshold value, the utilization based on a total number of IOPS directed towards the storage pool and a predicted IOPS limit; detecting a bully workload based on a numerical value determined from a total number of IOPS issued by the bully workload for the storage pool and a rising step function; and implementing a corrective action to reduce an impact of the bully workload on a victim workload.Type: ApplicationFiled: February 14, 2022Publication date: April 6, 2023Applicant: NETAPP, INC.Inventors: Nir Nossenson, Kai Niebergall, Francisco Jose Assis Rosa, John Jason Sprague, Omri Kessel
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Publication number: 20220373713Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: ApplicationFiled: August 2, 2022Publication date: November 24, 2022Inventors: Shimon ELKABETZ, Itai ZLOTNIK, Rei GOFFER, Jacob RIBNIK, Nir NOSSENSON, Rotem BAR-OR, Karl Ginter
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Patent number: 11460605Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: GrantFiled: January 28, 2021Date of Patent: October 4, 2022Assignee: The Tomorrow Companies Inc.Inventors: Shimon Elkabetz, Itai Zlotnik, Rei Goffer, Jacob Ribnik, Nir Nossenson, Rotem Bar-Or, Karl Ginter
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Publication number: 20220187499Abstract: The system as described collects and utilizes weather data sensor information in order to rapidly collect and update weather forecasts using real-time weather data collected at high rates of frequency, and use this collected high frequency weather data to rapidly correct and update the weather forecasts generated by the system.Type: ApplicationFiled: February 25, 2022Publication date: June 16, 2022Inventors: Shimon ELKABETZ, Jacob RIBNIK, Itai ZLOTNIK, Rei GOFFER, Nir NOSSENSON, Daniel Alexander ROTHENBERG, Karl GINTER
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Patent number: 11294096Abstract: The system as described collects and utilizes weather data sensor information in order to rapidly collect and update weather forecasts using real-time weather data collected at high rates of frequency, and use this collected high frequency weather data to rapidly correct and update the weather forecasts generated by the system.Type: GrantFiled: November 5, 2018Date of Patent: April 5, 2022Assignee: The Tomorrow Companies Inc.Inventors: Shimon Elkabetz, Jacob Ribnik, Itai Zlotnik, Rei Goffer, Nir Nossenson, Daniel Alexander Rothenberg, Karl Ginter
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Patent number: 11151012Abstract: An example system and method to provide a dashboard for users to analyze and review their hyper-scaler usage and spending and offer optimizations to predict optimal use of reserved and unreserved instances on various hyper-scaler platforms. While hyper-scaler platforms offer flexibility for users to scale their use on a platform, there is a potential risk of rapid cost overruns in large enterprise organizations that may be difficult to control and predict. In some examples, the system can determine an optimal number of reserved instances using past usage data and/or prediction data from a user may be used by the system to make forward predictions about reserving an optimal number of instances and minimizing hyper-scaler resource use.Type: GrantFiled: January 24, 2020Date of Patent: October 19, 2021Assignee: NETAPP, INC.Inventors: Jason Sprague, Nir Nossenson, Sibel Kadioglu, Ravi Kesarwani, Omri Kessel
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Publication number: 20210232479Abstract: An example system and method to provide a dashboard for users to analyze and review their hyper-scaler usage and spending and offer optimizations to predict optimal use of reserved and unreserved instances on various hyper-scaler platforms. While hyper-scaler platforms offer flexibility for users to scale their use on a platform, there is a potential risk of rapid cost overruns in large enterprise organizations that may be difficult to control and predict. In some examples, the system can determine an optimal number of reserved instances using past usage data and/or prediction data from a user may be used by the system to make forward predictions about reserving an optimal number of instances and minimizing hyper-scaler resource use.Type: ApplicationFiled: January 24, 2020Publication date: July 29, 2021Inventors: Jason Sprague, Nir Nossenson, Sibel Kadioglu, Ravi Kesarwani, Omri Kessel
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Publication number: 20210165129Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: ApplicationFiled: February 16, 2021Publication date: June 3, 2021Inventors: Shimon ELKABETZ, Jacob RIBNIK, Itai ZLOTNIK, Rei GOFFER, Nir NOSSENSON, Daniel Alexander ROTHENBERG, Karl GINTER
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Publication number: 20210149079Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: ApplicationFiled: January 28, 2021Publication date: May 20, 2021Inventors: Shimon ELKABETZ, Itai ZLOTNIK, Rei GOFFER, Jacob RIBNIK, Nir NOSSENSON, Rotem BAR-OR, Karl Ginter
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Patent number: 10962680Abstract: Improved mechanisms for collecting information from a diverse suite of sensors and systems, calculating the current precipitation, atmospheric water vapor, atmospheric liquid water content, or precipitable water and other atmospheric-based phenomena, for example presence and intensity of fog, based upon these sensor readings, predicting future precipitation and atmospheric-based phenomena, and estimating effects of the atmospheric-based phenomena on visibility, for example by calculating runway visible range (RVR) estimates and forecasts based on the atmospheric-based phenomena.Type: GrantFiled: November 5, 2018Date of Patent: March 30, 2021Assignee: CLIMACELL INC.Inventors: Shimon Elkabetz, Jacob Ribnik, Itai Zlotnik, Rei Goffer, Nir Nossenson, Daniel Alexander Rothenberg, Karl Ginter
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Patent number: 10955585Abstract: A computerized method of processing data for use in weather modeling is provided. The method includes receiving, from a first data source, by a first server, microwave link data including signal attenuation information. The method also includes pre-processing, in real time, by the first server, the microwave link data, thereby producing pre-processed microwave link data. The method also includes storing the pre-processed microwave link data in a first data store. The method also includes receiving, from the first data store, by a second server, the pre-processed microwave link data. The method also includes processing, on a scheduled routine, by the second server, the pre-processed microwave link data using a data transform, thereby producing first weather data.Type: GrantFiled: August 13, 2018Date of Patent: March 23, 2021Assignee: CLIMACELL INC.Inventors: Shimon Elkabetz, Itai Zlotnik, Rei Goffer, Jacob Ribnik, Nir Nossenson, Rotem Bar-Or, Karl Ginter
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Publication number: 20190339416Abstract: The system as described collects and utilizes weather data sensor information in order to rapidly collect and update weather forecasts using real-time weather data collected at high rates of frequency, and use this collected high frequency weather data to rapidly correct and update the weather forecasts generated by the system.Type: ApplicationFiled: November 5, 2018Publication date: November 7, 2019Inventors: Shimon ELKABETZ, Jacob RIBNIK, Itai ZLOTNIK, Rei GOFFER, Nir NOSSENSON, Daniel Alexander ROTHENBERG, Karl GINTER