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Patent Agency Ranking
1.发明授权Sorting materials using a pattern recognition, such as upgrading nickel laterite ores through electromagnetic sensor-based methods 有权使用模式识别对材料进行分选,例如通过基于电磁传感器的方法升级镍红土矿石公开(公告)号:US09316537B2
公开(公告)日:2016-04-19
申请号:US13830453
申请日:2013-03-14
Applicant: MineSense Technologies Ltd.
Inventor: Andrew Sherliker Bamber , Nicholas Barcza , Andrew Csinger
CPC classification number: B07C5/344 , B07C5/3416 , B07C5/342 , G01J3/00 , G01N21/27 , G01N23/12 , G01N2223/302 , G01N2223/635 , G01N2223/643
Abstract: A system and method of sorting mineral streams, for example laterite mineral ores, into appropriately classified valuable and waste streams for maximum recovery of value from the mineral stream, e.g., a stream of minerals includes receiving response data indicating reflected, absorbed or backscattered energy from a mineral sample exposed to a sensor, where the mineral sample is irradiated with electromagnetic energy. The system determines spectral characteristics of the mineral sample by performing spectral analysis on the response data of the mineral sample and identifies a composition of the mineral sample by comparing the spectral characteristics of the mineral sample to previously developed spectral characteristics of samples of known composition. The system then generates a sort decision for the mineral sample based on the comparison, where the sort decision is used in diverting the mineral sample to a desired destination e.g. pyrometallurgical treatment stages, or to a waste stream.
Abstract translation: 将矿物流(例如红土矿物矿石)分选成适当分类的有价值和废物流的系统和方法,以从矿物流中最大程度地回收价值,例如矿物流包括接收表示反射,吸收或反向散射能量的响应数据, 暴露于传感器的矿物样品,其中矿物样品用电磁能照射。 该系统通过对矿物样品的响应数据进行光谱分析来确定矿物样品的光谱特征,并通过将矿物样品的光谱特征与先前已知组成样品的光谱特征进行比较来识别矿物样品的组成。 然后,该系统基于比较生成矿物样品的排序决定,其中使用排序决定将矿物样品转移到期望的目的地,例如 火法冶金处理阶段或废物流。
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公开(公告)号:US11219927B2
公开(公告)日:2022-01-11
申请号:US16287596
申请日:2019-02-27
Applicant: MineSense Technologies Ltd.
Inventor: Andrew Sherliker Bamber , Nicholas Barcza , Andrew Csinger
Abstract: A system and method of sorting mineral streams, for example laterite mineral ores, into appropriately classified valuable and waste streams for maximum recovery of value from the mineral stream, e.g., a stream of minerals includes receiving response data indicating reflected, absorbed or backscattered energy from a mineral sample exposed to a sensor, where the mineral sample is irradiated with electromagnetic energy. The system determines spectral characteristics of the mineral sample by performing spectral analysis on the response data of the mineral sample and identifies a composition of the mineral sample by comparing the spectral characteristics of the mineral sample to previously developed spectral characteristics of samples of known composition. The system then generates a sort decision for the mineral sample based on the comparison, where the sort decision is used in diverting the mineral sample to a desired destination e.g. pyrometallurgical treatment stages, or to a waste stream.
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3.发明申请SORTING MATERIALS USING PATTERN RECOGNITION, SUCH AS UPGRADING NICKEL LATERITE ORES THROUGH ELECTROMAGNETIC SENSOR-BASED METHODS 审中-公开使用模式识别的分类材料,如通过基于电磁传感器的方法升级镍铬铁矿公开(公告)号:US20170028443A1
公开(公告)日:2017-02-02
申请号:US15068492
申请日:2016-03-11
Applicant: MineSense Technologies Ltd.
Inventor: Andrew Sherliker Bamber , Nicholas Barcza , Andrew Csinger
CPC classification number: B07C5/344 , B07C5/3416 , B07C5/342 , G01J3/00 , G01N21/27 , G01N23/12 , G01N2223/302 , G01N2223/635 , G01N2223/643
Abstract: A system and method of sorting mineral streams, for example laterite mineral ores, into appropriately classified valuable and waste streams for maximum recovery of value from the mineral stream, e.g., a stream of minerals includes receiving response data indicating reflected, absorbed or backscattered energy from a mineral sample exposed to a sensor, where the mineral sample is irradiated with electromagnetic energy. The system determines spectral characteristics of the mineral sample by performing spectral analysis on the response data of the mineral sample and identifies a composition of the mineral sample by comparing the spectral characteristics of the mineral sample to previously developed spectral characteristics of samples of known composition. The system then generates a sort decision for the mineral sample based on the comparison, where the sort decision is used in diverting the mineral sample to a desired destination e.g. pyrometallurgical treatment stages, or to a waste stream.
Abstract translation: 将矿物流(例如红土矿物矿石)分选成适当分类的有价值和废物流的系统和方法,以从矿物流中最大程度地回收价值,例如矿物流包括接收表示反射,吸收或反向散射能量的响应数据, 暴露于传感器的矿物样品,其中矿物样品用电磁能照射。 该系统通过对矿物样品的响应数据进行光谱分析来确定矿物样品的光谱特征,并通过将矿物样品的光谱特征与先前已知组成样品的光谱特征进行比较来识别矿物样品的组成。 然后,该系统基于比较生成矿物样品的排序决定,其中使用排序决定将矿物样品转移到期望的目的地,例如 火法冶金处理阶段或废物流。
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公开(公告)号:US20190270122A1
公开(公告)日:2019-09-05
申请号:US16287596
申请日:2019-02-27
Applicant: MineSense Technologies Ltd.
Inventor: Andrew Sherliker Bamber , Nicholas Barcza , Andrew Csinger
Abstract: A system and method of sorting mineral streams, for example laterite mineral ores, into appropriately classified valuable and waste streams for maximum recovery of value from the mineral stream, e.g., a stream of minerals includes receiving response data indicating reflected, absorbed or backscattered energy from a mineral sample exposed to a sensor, where the mineral sample is irradiated with electromagnetic energy. The system determines spectral characteristics of the mineral sample by performing spectral analysis on the response data of the mineral sample and identifies a composition of the mineral sample by comparing the spectral characteristics of the mineral sample to previously developed spectral characteristics of samples of known composition. The system then generates a sort decision for the mineral sample based on the comparison, where the sort decision is used in diverting the mineral sample to a desired destination e.g. pyrometallurgical treatment stages, or to a waste stream.
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公开(公告)号:US10259015B2
公开(公告)日:2019-04-16
申请号:US15068492
申请日:2016-03-11
Applicant: MineSense Technologies Ltd.
Inventor: Andrew Sherliker Bamber , Nicholas Barcza , Andrew Csinger
Abstract: A system and method of sorting mineral streams, for example laterite mineral ores, into appropriately classified valuable and waste streams for maximum recovery of value from the mineral stream, e.g., a stream of minerals includes receiving response data indicating reflected, absorbed or backscattered energy from a mineral sample exposed to a sensor, where the mineral sample is irradiated with electromagnetic energy. The system determines spectral characteristics of the mineral sample by performing spectral analysis on the response data of the mineral sample and identifies a composition of the mineral sample by comparing the spectral characteristics of the mineral sample to previously developed spectral characteristics of samples of known composition. The system then generates a sort decision for the mineral sample based on the comparison, where the sort decision is used in diverting the mineral sample to a desired destination e.g. pyrometallurgical treatment stages, or to a waste stream.
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