CN113163499B - Spectrometer test data transmission method and system based on wireless communication - Google Patents
Spectrometer test data transmission method and system based on wireless communication Download PDFInfo
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- CN113163499B CN113163499B CN202110615051.5A CN202110615051A CN113163499B CN 113163499 B CN113163499 B CN 113163499B CN 202110615051 A CN202110615051 A CN 202110615051A CN 113163499 B CN113163499 B CN 113163499B
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- mobile terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
Abstract
The invention discloses a transmission method of spectrometer test data based on wireless communication, which comprises the following steps: acquiring spectrometer test data by a mobile terminal; the method includes monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band.
Description
Technical Field
The invention relates to the technical field of spectrometers, in particular to a method and a system for transmitting test data of a spectrometer based on wireless communication.
Background
Spectrometers, also known as spectrometers, are widely known as direct-reading spectrometers. And a device for measuring the intensities of different wavelength positions of spectral lines by using light detectors such as a photomultiplier tube.
The prior art CN109425430B discloses a method for manufacturing a designed spectrometer, which comprises the following steps: obtaining a plurality of reference parameters and at least one set specification of a reference spectrometer; integrating at least one necessary parameter of the reference spectrometer to a set spectrometer, so that the set spectrometer has the same set specification as the reference spectrometer; obtaining a plurality of free parameters of the variable spectrometer according to a grating equation; and setting a set-change optical element of the set-change spectrometer on a set-change light-receiving side of a set-change housing such that the set-change light-receiving side is shorter than a reference light-receiving side of a reference housing of the reference spectrometer.
The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.
Disclosure of Invention
The invention aims to provide a method and a system for transmitting spectrometer test data based on wireless communication, which can overcome the defects of the prior art.
In order to achieve the above object, the present invention provides a method for transmitting spectrometer test data based on wireless communication, which is characterized in that the method for transmitting spectrometer test data based on wireless communication comprises the following steps:
the method comprises the steps that a mobile terminal obtains spectrometer test data, wherein the mobile terminal and a base station communicate on a first frequency band, a second frequency band and a third frequency band;
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by the mobile terminal, a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the control resource set on the third frequency band is occupied by the base station;
in response to determining that the set of control resources on the third frequency band is occupied, sending, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by the mobile terminal, system information transmitted by the base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a second frequency band, wherein the system information indicates to the mobile terminal that a first set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for the first frequency band, the system information indicates to the mobile terminal that a second set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for the second frequency band, and the system information indicates to the mobile terminal that a third set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for a third frequency band;
monitoring, by the mobile terminal, a first downlink control message sent by the base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station;
in response to determining that the first set of control resources on the third frequency band is occupied, transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the second frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
monitoring, by the mobile terminal, a first downlink control message sent by the base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by the mobile terminal, a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station;
in response to determining that the first set of control resources on the third frequency band is occupied, relinquishing, by the base station, scheduling uplink resources on the third frequency band;
in response to receiving the first downlink control message and the second downlink control message, spectrometer test data is transmitted by the mobile terminal to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
the base station judges that the first control resource set on the third frequency band is occupied, and the base station judges that the first control resource set on the second frequency band is occupied;
in response to determining that the first set of control resources on the third frequency band is occupied and the first set of control resources on the second frequency band is occupied, transmitting, by the base station, RRC signaling to the mobile terminal, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, wherein the RRC signaling indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the second frequency band, and wherein the RRC signaling indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the third frequency band.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
monitoring, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
in response to receiving the RRC signaling, listening, by the mobile terminal, for a third downlink control message sent by the base station on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
The invention provides a wireless communication-based transmission system for spectrometer test data, which is characterized by comprising the following components:
the mobile terminal is used for acquiring spectrometer test data, wherein the mobile terminal and the base station are communicated on a first frequency band, a second frequency band and a third frequency band;
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a set of control resources on a third frequency band is occupied;
means for transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band in response to determining that the set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a second frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a first set of control resources on a third frequency band is occupied;
means for transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the second frequency band in response to determining that the first set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a first set of control resources on a third frequency band is occupied;
means for, in response to determining that the first set of control resources on the third frequency band is occupied, foregoing, by the base station, scheduling uplink resources on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message and the second downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
a unit for determining, by the base station, that the first control resource set on the third frequency band is occupied, and determining, by the base station, that the first control resource set on the second frequency band is occupied;
means for transmitting, by the base station, RRC signaling to the mobile terminal in response to determining that the first set of control resources on the third frequency band is occupied and the first set of control resources on the second frequency band is occupied, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal that a first set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the first frequency band, the RRC signaling indicates to the mobile terminal a second set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the second frequency band, and the RRC signaling indicates to the mobile terminal a third set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the third frequency band.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for monitoring, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for monitoring, by the mobile terminal, a third downlink control message transmitted by the base station on a third set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the third downlink control message indicates to the mobile terminal uplink resources located on a third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
Compared with the prior art, the invention has the advantages that the existing spectrometer on the market transmits data to the computer through a wired connection mode, and then the computer outputs a report and prints the report. However, with the rise of paperless offices and smart phones, most of current users do not need paper reports, and meanwhile, the users generally do not accept the mode of bundled sales of the spectrometer and a matched computer. Such conventional spectrometers have not been suitable for the current social needs. In view of the needs of the prior art, there is a need for a spectrometer capable of wireless communication, and the present application provides a method and a system for transmitting test data of a spectrometer based on wireless communication.
Drawings
Fig. 1 is a schematic diagram of a frequency band structure according to an embodiment of the present invention.
FIG. 2 is a flow diagram of a method according to an embodiment of the invention.
Detailed Description
The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.
Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.
Fig. 1 is a schematic diagram of a frequency band structure according to an embodiment of the present invention.
FIG. 2 is a flow diagram of a method according to an embodiment of the invention. As shown in the figure, the method of the present invention comprises the steps of:
step 101: the method comprises the steps that a mobile terminal obtains spectrometer test data, wherein the mobile terminal and a base station communicate on a first frequency band, a second frequency band and a third frequency band; the mobile terminal can be a communication module built in the spectrometer;
step 102: monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
step 103: monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
step 104: listening, by the mobile terminal, a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
step 105: judging that the control resource set on the third frequency band is occupied by the base station;
step 106: in response to determining that the set of control resources on the third frequency band is occupied, sending, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
step 107: in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by the mobile terminal, system information transmitted by the base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a second frequency band, wherein the system information indicates to the mobile terminal that a first set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for the first frequency band, the system information indicates to the mobile terminal that a second set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for the second frequency band, and the system information indicates to the mobile terminal that a third set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for a third frequency band;
monitoring, by the mobile terminal, a first downlink control message sent by the base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station;
in response to determining that the first set of control resources on the third frequency band is occupied, transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the second frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
monitoring, by the mobile terminal, a first downlink control message sent by the base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by the mobile terminal, a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station;
in response to determining that the first set of control resources on the third frequency band is occupied, relinquishing, by the base station, scheduling uplink resources on the third frequency band;
in response to receiving the first downlink control message and the second downlink control message, spectrometer test data is transmitted by the mobile terminal to the base station.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
the base station judges that the first control resource set on the third frequency band is occupied, and the base station judges that the first control resource set on the second frequency band is occupied;
in response to determining that the first set of control resources on the third frequency band is occupied and the first set of control resources on the second frequency band is occupied, transmitting, by the base station, RRC signaling to the mobile terminal, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, wherein the RRC signaling indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the second frequency band, and wherein the RRC signaling indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the third frequency band.
In a preferred embodiment, the method for transmitting the test data of the spectrometer based on wireless communication comprises the following steps:
monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
monitoring, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
in response to receiving the RRC signaling, listening, by the mobile terminal, for a third downlink control message sent by the base station on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message, transmitting, by the mobile terminal, spectrometer test data to the base station.
The invention provides a wireless communication-based transmission system for spectrometer test data, which is characterized by comprising the following components:
the mobile terminal is used for acquiring spectrometer test data, wherein the mobile terminal and the base station are communicated on a first frequency band, a second frequency band and a third frequency band;
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a set of control resources on a third frequency band is occupied;
means for transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band in response to determining that the set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in a second frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a first set of control resources on a third frequency band is occupied;
means for transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the second frequency band in response to determining that the first set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by the mobile terminal, for a second downlink control message transmitted by the base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by the base station, that a first set of control resources on a third frequency band is occupied;
means for, in response to determining that the first set of control resources on the third frequency band is occupied, foregoing, by the base station, scheduling uplink resources on the third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message and the second downlink control message.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in a first frequency band nor a plurality of sets of control resources in a second frequency band;
a unit for determining, by the base station, that the first control resource set on the third frequency band is occupied, and determining, by the base station, that the first control resource set on the second frequency band is occupied;
means for transmitting, by the base station, RRC signaling to the mobile terminal in response to determining that the first set of control resources on the third frequency band is occupied and the first set of control resources on the second frequency band is occupied, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal that a first set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the first frequency band, the RRC signaling indicates to the mobile terminal a second set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the second frequency band, and the RRC signaling indicates to the mobile terminal a third set of control resources in the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the third frequency band.
In a preferred embodiment, the transmission system of spectrometer test data based on wireless communication comprises:
means for monitoring, by the mobile terminal, a first downlink control message transmitted by the base station on a first set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for monitoring, by the mobile terminal, a second downlink control message transmitted by the base station on a second set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for monitoring, by the mobile terminal, a third downlink control message transmitted by the base station on a third set of control resources of the first frequency band in response to receiving the RRC signaling, wherein the third downlink control message indicates to the mobile terminal uplink resources located on a third frequency band;
means for transmitting, by the mobile terminal, spectrometer test data to the base station in response to receiving the first downlink control message, the second downlink control message, and the third downlink control message.
As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.
Claims (8)
1. A wireless communication based transmission method for spectrometer test data is characterized in that the wireless communication based transmission method for spectrometer test data comprises the following steps:
acquiring spectrometer test data by a mobile terminal, wherein the mobile terminal and a base station communicate on a first frequency band, a second frequency band and a third frequency band;
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by a mobile terminal, a second downlink control message transmitted by a base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the control resource set on the third frequency band is occupied by the base station;
in response to determining that the set of control resources on the third frequency band is occupied, sending, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
transmitting, by a mobile terminal to the base station, the spectrometer test data in response to receiving the first, second and third downlink control messages,
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in the second frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for the second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the second frequency band for transmitting downlink control information for a third frequency band;
monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
monitoring, by a mobile terminal, a second downlink control message transmitted by a base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station; in response to determining that the first set of control resources on the third frequency band is occupied, sending, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the second frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
sending, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first, second, and third downlink control messages.
2. The method for transmitting test data of a spectrometer based on wireless communication according to claim 1,
the transmission method of the spectrometer test data based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in the first frequency band nor a plurality of sets of control resources in a second frequency band;
monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
listening, by a mobile terminal, a second downlink control message transmitted by a base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station;
in response to determining that the first set of control resources on the third frequency band is occupied, relinquishing, by the base station, scheduling uplink resources on the third frequency band;
transmitting, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first downlink control message and the second downlink control message.
3. The method for transmitting test data of a spectrometer based on wireless communication according to claim 2,
the transmission method of the spectrometer test data based on wireless communication comprises the following steps:
monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in the first frequency band nor a plurality of sets of control resources in a second frequency band;
judging that the first control resource set on the third frequency band is occupied by the base station, and judging that the first control resource set on the second frequency band is occupied by the base station;
sending RRC signaling by a base station to the mobile terminal in response to determining that the first set of control resources on the third frequency band is occupied and that the first set of control resources on the second frequency band is occupied, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal that a first set of control resources of the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the first frequency band, the RRC signaling indicates to the mobile terminal that a second set of control resources of the plurality of sets of control resources in the first frequency band is for transmitting downlink control information for a second frequency band, the RRC signaling indicates to the mobile terminal that a third set of control resources of the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for a third frequency band.
4. The method for transmitting test data of a spectrometer based on wireless communication according to claim 3,
the transmission method of the spectrometer test data based on wireless communication comprises the following steps:
in response to receiving the RRC signaling, listening, by a mobile terminal, for a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
in response to receiving the RRC signaling, listening, by a mobile terminal, for a second downlink control message transmitted by a base station on a second set of control resources of the first frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on a second frequency band;
in response to receiving the RRC signaling, listening, by a mobile terminal, for a third downlink control message transmitted by a base station on a third set of control resources of the first frequency band, wherein the third downlink control message indicates to the mobile terminal uplink resources located on a third frequency band;
sending, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first, second, and third downlink control messages.
5. A system for transmitting spectrometer test data based on wireless communication, the system comprising:
means for obtaining spectrometer test data by a mobile terminal, wherein the mobile terminal communicates with a base station over a first frequency band, a second frequency band, and a third frequency band;
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the system information indicates to the mobile terminal a first set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a first frequency band, the system information indicates to the mobile terminal a second set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a second frequency band, and the system information indicates to the mobile terminal a third set of control resources of the plurality of sets of control resources in the first frequency band for transmitting downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by a mobile terminal, to a second downlink control message transmitted by a base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by a base station, that a set of control resources on the third frequency band is occupied;
means for transmitting, by the base station, a third downlink control message to the mobile terminal on a third set of control resources of the first frequency band in response to determining that the set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on the third frequency band;
means for transmitting, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first, second, and third downlink control messages,
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information indicates to the mobile terminal a plurality of sets of control resources in the second frequency band, wherein the system information indicates to the mobile terminal that a first set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for a first frequency band, the system information indicates to the mobile terminal that a second set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for a second frequency band, and the system information indicates to the mobile terminal that a third set of control resources of the plurality of sets of control resources in the second frequency band is used to transmit downlink control information for a third frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by a mobile terminal, a second downlink control message transmitted by a base station on a second set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by a base station, that a first set of control resources on the third frequency band is occupied; means for transmitting, by a base station, a third downlink control message to the mobile terminal on a third set of control resources of a second frequency band in response to determining that the first set of control resources on the third frequency band is occupied, wherein the third downlink control message indicates to the mobile terminal uplink resources located on a third frequency band;
means for transmitting, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first, second, and third downlink control messages.
6. The transmission system of spectrometer test data based on wireless communication according to claim 5,
the wireless communication-based transmission system for the spectrometer test data comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in the first frequency band nor a plurality of sets of control resources in a second frequency band;
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a set of control resources of a first frequency band, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for listening, by a mobile terminal, to a second downlink control message transmitted by a base station on a set of control resources of a second frequency band, wherein the second downlink control message indicates to the mobile terminal uplink resources located on the second frequency band;
means for determining, by a base station, that a first set of control resources on the third frequency band is occupied; means for relinquishing, by the base station, scheduling uplink resources on a third frequency band in response to determining that the first set of control resources on the third frequency band is occupied;
means for transmitting, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first downlink control message and the second downlink control message.
7. The transmission system of spectrometer test data based on wireless communication according to claim 6,
the wireless communication-based transmission system for the spectrometer test data comprises:
means for monitoring, by a mobile terminal, system information transmitted by a base station, wherein the system information does not indicate to the mobile terminal a plurality of sets of control resources in the first frequency band nor a plurality of sets of control resources in a second frequency band;
a unit for determining, by the base station, that the first control resource set on the third frequency band is occupied, and determining, by the base station, that the first control resource set on the second frequency band is occupied;
means for transmitting RRC signaling by a base station to the mobile terminal in response to determining that the first set of control resources on the third frequency band is occupied and the first set of control resources on the second frequency band is occupied, wherein the RRC signaling indicates to the mobile terminal a plurality of sets of control resources in the first frequency band, wherein the RRC signaling indicates to the mobile terminal that a first set of control resources of the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for the first frequency band, the RRC signaling indicates to the mobile terminal that a second set of control resources of the plurality of sets of control resources in the first frequency band is for transmitting downlink control information for a second frequency band, the RRC signaling indicates to the mobile terminal that a third set of control resources of the plurality of sets of control resources in the first frequency band is used to transmit downlink control information for a third frequency band.
8. The transmission system of spectrometer test data based on wireless communication according to claim 7,
the wireless communication-based transmission system for the spectrometer test data comprises:
means for monitoring, by a mobile terminal, a first downlink control message transmitted by a base station on a first set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the first downlink control message indicates to the mobile terminal uplink resources located on the first frequency band;
means for monitoring, by a mobile terminal, a second downlink control message transmitted by a base station on a second set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the second downlink control message indicates to the mobile terminal uplink resources located on a second frequency band;
means for monitoring, by a mobile terminal, a third downlink control message transmitted by a base station on a third set of control resources of a first frequency band in response to receiving the RRC signaling, wherein the third downlink control message indicates to the mobile terminal uplink resources located on a third frequency band;
means for transmitting, by a mobile terminal, the spectrometer test data to the base station in response to receiving the first, second, and third downlink control messages.
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102045110A (en) * | 2009-10-14 | 2011-05-04 | 株式会社日立制作所 | Optical communication system and communication bandwidth control method |
CN104469535A (en) * | 2014-11-26 | 2015-03-25 | 鼎点视讯科技有限公司 | Broadcast video IP method and device based on C-DOCSIS system |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9078253B2 (en) * | 2011-11-28 | 2015-07-07 | Samsung Electronics Co., Ltd. | Apparatus and method for machine-type communications |
CN103220796B (en) * | 2012-01-21 | 2016-09-21 | 电信科学技术研究院 | A kind of downlink data transmission method and equipment thereof |
CN109425430B (en) * | 2017-09-05 | 2021-02-26 | 台湾超微光学股份有限公司 | Design of variable spectrometer and integration design and manufacturing method of spectrometer |
CN108152246A (en) * | 2017-12-25 | 2018-06-12 | 四川长虹电器股份有限公司 | Intelligent wireless spectral detection system based on mobile terminal |
CN110274690A (en) * | 2019-05-14 | 2019-09-24 | 深圳大学 | A kind of miniature bloom spectrometer system and its application method |
CN111669839B (en) * | 2020-06-22 | 2022-03-08 | 中国水利水电科学研究院 | Water quantity distribution method and system for multi-layer water resource management |
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102045110A (en) * | 2009-10-14 | 2011-05-04 | 株式会社日立制作所 | Optical communication system and communication bandwidth control method |
CN104469535A (en) * | 2014-11-26 | 2015-03-25 | 鼎点视讯科技有限公司 | Broadcast video IP method and device based on C-DOCSIS system |
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