CN113345246B - Intelligent humanized snapshot system for illegal parking - Google Patents

Abstract

The invention discloses an intelligent humanized snapshot method for illegal parking, which comprises the following steps: collecting illegal vehicle image data by the mobile terminal; monitoring, by a mobile terminal, a first downlink control message transmitted by a base station; transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message; a first portion of the collected contra-parking vehicle image data transmitted by the mobile terminal is received by the base station using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe.

Description

Intelligent humanized snapshot system for illegal parking

Technical Field

The invention relates to the technical field of intelligent traffic management, in particular to an intelligent humanized snapshot system for illegal parking.

Background

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 an intelligent humanized capture system for illegal parking, which can overcome the defects of the prior art.

In order to achieve the aim, the invention provides an intelligent humanized capture method for illegal parking, which is characterized by comprising the following steps of: collecting illegal vehicle image data by the mobile terminal; monitoring, by the mobile terminal, a first downlink control message transmitted by the base station, wherein the first downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, and the first downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe; transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; transmitting, by the mobile terminal, a second portion of the collected illicit vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message; receiving, by the base station, a first portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe; receiving, by the base station, a second portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe; determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit; determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit; if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit, and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the mobile terminal, a first PUCCH message to the base station, wherein the first PUCCH message indicates to the base station to cease scheduling uplink resources on the first transmit beam of the mobile terminal.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the base station to the mobile terminal, a second downlink control message in response to receiving the first PUCCH message, wherein the second downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the second downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected illicit vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using the second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the mobile terminal, a second PUCCH message to the base station if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal and to stop scheduling uplink resources on the second transmit beam of the mobile terminal; monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; in response to listening to a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station, determining, by the mobile terminal, a third transmit beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal, wherein transmitting data to the base station on the third transmit beam of the mobile terminal does not violate a maximum allowed exposure limit.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: determining, by the mobile terminal, a third receive beam of the base station that is paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal in response to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station; transmitting, by the mobile terminal to the base station, a third PUCCH message in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates the third receive beam of the base station to the base station; transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and the third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam of the mobile terminal on the first symbol set and the first subcarrier set of the second subframe, and the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam of the mobile terminal on the first symbol set and the second subcarrier set of the second subframe; transmitting, by the mobile terminal, a third portion of the collected illicit vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message; receiving, by the base station, a third portion of the collected illicit vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the mobile terminal, a fourth PUCCH message to the base station if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal; transmitting, by the base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message; in response to receiving the fourth downlink control message, transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe.

The invention provides an intelligent humanized capture system for illegal parking, which is characterized by comprising units for performing the following operations: collecting image data of the parking violation vehicles by the mobile terminal; monitoring, by the mobile terminal, a first downlink control message transmitted by the base station, wherein the first downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, and the first downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe; transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message; receiving, by the base station, a first portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe; receiving, by the base station, a second portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe; determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit; determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit; if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit, and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the mobile terminal, a first PUCCH message to the base station, wherein the first PUCCH message indicates to the base station to cease scheduling uplink resources on the first transmit beam of the mobile terminal.

In a preferred embodiment, the intelligent human capture system for illegal parking comprises a unit for: transmitting, by the base station to the mobile terminal, a second downlink control message in response to receiving the first PUCCH message, wherein the second downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, the second downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected illicit vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using the second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: transmitting, by the mobile terminal, a second PUCCH message to the base station if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal and to stop scheduling uplink resources on the second transmit beam of the mobile terminal; monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; in response to listening to a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station, determining, by the mobile terminal, a third transmit beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal, wherein transmitting data to the base station on the third transmit beam of the mobile terminal does not violate a maximum allowed exposure limit.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: determining, by the mobile terminal, a third receive beam of the base station that is paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal in response to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station; transmitting, by the mobile terminal to the base station, a third PUCCH message in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates the third receive beam of the base station to the base station; transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and the third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: transmitting, by the mobile terminal, a fourth PUCCH message to the base station if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal; transmitting, by the base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message; in response to receiving the fourth downlink control message, transmitting, by the mobile terminal, a fourth portion of the collected illicit vehicle image data to the base station over the first set of symbols and the second set of subcarriers of the second subframe using a second transmit beam of the mobile terminal.

Compared with the prior art, the invention has the advantages that the driving behavior of the driver is normalized, and the behavior violating parking is timely and accurately checked. At present, the illegal parking is mainly managed by two modes, namely on-site evidence obtaining and law enforcement and off-site manual snapshot evidence obtaining and law enforcement. For the on-site evidence obtaining and law enforcement mode, due to the fact that traffic management police force is insufficient, on-site evidence obtaining and law enforcement cannot guarantee that traffic violation can be corrected, checked and controlled timely and effectively. The application aims to enlarge the delivery of traffic monitors, find problems on drivers, and find problems and solutions from traffic enforcement strategies. More monitoring devices need to be put in the measures, but the radiation quantity is increased due to the fact that the monitoring devices are too dense, MPE (performance management protocol) regulations are easily not met, and related systems cannot be supported by a telecommunication department.

Drawings

FIG. 1 is a flow diagram of a method according to an embodiment of the invention.

Detailed Description

Specific embodiments of the present invention will be described in detail below with reference to 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 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: collecting illegal vehicle image data by the mobile terminal; the mobile terminal may be a surveillance camera;

step 102: monitoring, by the mobile terminal, a first downlink control message transmitted by the base station, wherein the first downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, and the first downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe; first, in the beamforming technology, a beam of a mobile terminal needs to be paired with a beam of a base station, and a specific pairing process may be completed in a random access process (how to pair specifically is the prior art, which is not described herein), and further, according to a principle of "reciprocity" of the beam, when the mobile terminal sends data, the beam is referred to as a certain transmission beam of the mobile terminal (for example, referred to as an a transmission beam of the mobile terminal). The interpretation of the receive and transmit beams of the base station is also made according to the reciprocity principle and is not repeated by the applicant. It should be understood by those skilled in the art that the downlink control message and the data message are not transmitted using the same beam, the beam for transmitting the control message is wider, and the transmission of the control message does not need to use frequency division + space division, so that the control of the MPE is different from the MPE control of the data transmission beam, and the MPE control of the beam of the control message can follow the background art cited in the present application, which is not a focus of the present application, and is not described in detail by the applicant.

Step 103: transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; the person skilled in the art needs to correctly understand the "first part of the image data of the parking violation vehicles", for example, some cities require taking five consecutive pictures when taking the parking violation pictures in order to prove that the vehicle is not in a driving state; each photo may correspond to a portion, although other approaches may be suitable;

step 104: transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message;

step 105: receiving, by the base station, a first portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe;

step 106: receiving, by the base station, a second portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe;

step 107: determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit;

step 108: determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit;

step 109: if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit, and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the mobile terminal, a first PUCCH message to the base station, wherein the first PUCCH message indicates to the base station to cease scheduling uplink resources on the first transmit beam of the mobile terminal.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the base station to the mobile terminal, a second downlink control message in response to receiving the first PUCCH message, wherein the second downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the second downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the mobile terminal, a second PUCCH message to the base station if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal and to stop scheduling uplink resources on the second transmit beam of the mobile terminal; monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; in response to listening to a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station, determining, by the mobile terminal, a third transmit beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal, wherein transmitting data to the base station on the third transmit beam of the mobile terminal does not violate a maximum allowed exposure limit. For example, assuming that the mobile terminal receives the first reference signal using the B beam of the mobile terminal with the reception intensity of B, the mobile terminal receives the first reference signal using the C beam of the mobile terminal with the reception intensity of C, the mobile terminal receives the second reference signal using the B beam of the mobile terminal with the reception intensity of B1, and the mobile terminal receives the second reference signal using the C beam of the mobile terminal with the reception intensity of C1, if the mobile terminal determines that the B1 value is the maximum, the mobile terminal may determine that the base station should transmit using the fourth transmission beam and the mobile terminal should receive using the B beam, and again according to the aforementioned reciprocity principle, the mobile terminal may further know that, if it is the mobile terminal transmitting, the base station receiving, the base station should receive in the fourth transmission beam direction and the mobile terminal should transmit in the B beam direction, in the case of mobile terminal transmission and base station reception, the mobile terminal beam in the B beam direction is the "third transmit beam of the mobile terminal", and the beam received by the base station in the fourth transmit beam direction is the "third receive beam of the base station". Of course, the mobile terminal only needs to send the base station the index of the fourth transmit beam of the base station, and the base station can know what beam it should use for reception (based on reciprocity).

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: determining, by the mobile terminal, a third receive beam of the base station paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal in response to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station; transmitting, by the mobile terminal to the base station, a third PUCCH message in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates the third receive beam of the base station to the base station; transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and the third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam of the mobile terminal on the first symbol set and the first subcarrier set of the second subframe, and the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam of the mobile terminal on the first symbol set and the second subcarrier set of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message; receiving, by the base station, a third portion of the collected illicit vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capturing method for illegal parking comprises the following steps: transmitting, by the mobile terminal, a fourth PUCCH message to the base station if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal; transmitting, by the base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message; in response to receiving the fourth downlink control message, transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe.

The invention provides an intelligent humanized capture system for illegal parking, which is characterized by comprising units for performing the following operations: collecting illegal vehicle image data by the mobile terminal; monitoring, by the mobile terminal, a first downlink control message transmitted by the base station, wherein the first downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, and the first downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe; transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message;

transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message;

receiving, by the base station, a first portion of the collected illicit vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe; receiving, by the base station, a second portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe; determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit; determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit; if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit, and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the mobile terminal, a first PUCCH message to the base station, wherein the first PUCCH message indicates to the base station to cease scheduling uplink resources on the first transmit beam of the mobile terminal.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: transmitting, by the base station to the mobile terminal, a second downlink control message in response to receiving the first PUCCH message, wherein the second downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the second downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected illicit vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using the second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: transmitting, by the mobile terminal, a second PUCCH message to the base station if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal and to stop scheduling uplink resources on the second transmit beam of the mobile terminal; monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; in response to listening to a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station, determining, by the mobile terminal, a third transmit beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal, wherein transmitting data to the base station on the third transmit beam of the mobile terminal does not violate a maximum allowed exposure limit.

In a preferred embodiment, the intelligent human capture system for illegal parking comprises a unit for: determining, by the mobile terminal, a third receive beam of the base station that is paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal in response to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station; transmitting, by the mobile terminal to the base station, a third PUCCH message in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates the third receive beam of the base station to the base station; transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and the third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam of the mobile terminal on the first symbol set and the first subcarrier set of the second subframe, and the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam of the mobile terminal on the first symbol set and the second subcarrier set of the second subframe; transmitting, by the mobile terminal, a third portion of the collected illicit vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected illicit vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe.

In a preferred embodiment, the intelligent humanized capture system for illegal parking comprises a unit for: transmitting, by the mobile terminal, a fourth PUCCH message to the base station if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal; transmitting, by the base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message; in response to receiving the fourth downlink control message, transmitting, by the mobile terminal, a fourth portion of the collected illicit vehicle image data to the base station over the first set of symbols and the second set of subcarriers of the second subframe using a second transmit beam of the mobile terminal.

Through research by the applicant, a 3GPP conference document R1-166584 in the prior art discloses a technical scheme of space division + frequency division (actually space division + frequency division + time division, and the time division gain is not discussed in the present application for simplicity of discussion), which integrates the space division and frequency division modes, and obtains a space diversity gain and a frequency diversity gain at the same time, and the specific mode can be referred to in fig. 1 of the document. The applicant has found that in use of this document, however, considerable technical problems are encountered, since there is an international passing limit for Maximum Permissible Exposure (MPE) for 5G millimeter waves (sub-6 GHz is in fact also limiting), the transmission power of the beam must be limited, or the transmission direction of the beam must be adjusted. This type of prior art can be seen in CN110431755A, which describes a technique for preventing transmission on a certain beam from violating MPE specification, and the basic technical solution of this technique is that if a mobile terminal judges that transmission on a certain transmission beam will result in violating MPE specification, the mobile terminal will automatically switch beam direction (reducing transmission power is not relevant to the solution of the present application, and is not discussed), and also describes a technical solution for notifying a base station in advance that the mobile terminal will switch beams. However, this patent document cannot be used for the space division + frequency division scheme (i.e. the scheme of R1-166584), because the space division + frequency division scheme is to use different beams for transmission on different frequencies and the base station uses different beams for reception on different frequencies, and the basic assumption of the aforementioned CN110431755A document is that the base station and the mobile terminal use fixed beam pairs for transmission, and does not relate to the frequency division scheme, and the two schemes are not compatible at present.

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 (2)

1. An intelligent humanized capture method for illegal parking is characterized by comprising the following steps: collecting illegal vehicle image data by the mobile terminal;

monitoring, by a mobile terminal, a first downlink control message sent by a base station, wherein the first downlink control message indicates to the mobile terminal to send uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, the first downlink control message indicates to the mobile terminal to send uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe;

transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message;

receiving, by the base station, a first portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe;

receiving, by the base station, a second portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe;

determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit;

determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit;

transmitting, by the mobile terminal, a first PUCCH message to the base station indicating to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the base station, a second downlink control message to the mobile terminal indicating to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of a second subframe in response to receiving the first PUCCH message, indicating to the mobile terminal to use the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe, the second downlink control message indicating to the mobile terminal to use the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe The second transmit beam transmits uplink data;

transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message;

transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message;

receiving, by the base station, a third portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe;

receiving, by the base station, a fourth portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe, transmitting, by the mobile terminal to the base station, a second PUCCH message if it is determined that the transmission of data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that the transmission of data to the base station on the second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to cease scheduling of uplink resources on the first transmit beam of the mobile terminal and to cease scheduling of uplink resources on the second transmit beam of the mobile terminal;

monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; determining, by the mobile terminal, a third transmission beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal in response to listening for the first reference signal transmitted by the base station on a third transmission beam of the base station and the second reference signal transmitted by the base station on a fourth transmission beam of the base station, wherein transmitting data to the base station on a third transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, responsive to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station, determining, by the mobile terminal, a third receive beam of the base station that is paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal;

transmitting, by the mobile terminal, a third PUCCH message to the base station in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates the third receive beam of the base station to the base station;

transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and a third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam for the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam for the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe;

transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message;

receiving, by the base station, a third portion of the collected illicit vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected illicit vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe, transmitting, by the mobile terminal to the base station, a fourth PUCCH message if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal;

transmitting, by the base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message;

transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the fourth downlink control message.

2. The intelligent humanized capture system for illegal parking is characterized by comprising units for performing the following operations: collecting illegal vehicle image data by the mobile terminal; monitoring, by a mobile terminal, a first downlink control message sent by a base station, wherein the first downlink control message indicates to the mobile terminal to send uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe, the first downlink control message indicates to the mobile terminal to send uplink data using a second transmit beam of the mobile terminal on the first set of symbols and a second set of subcarriers of the first subframe; transmitting, by the mobile terminal, a first portion of the collected contra-parking vehicle image data to the base station using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a first subframe in response to receiving the first downlink control message; transmitting, by the mobile terminal, a second portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the first subframe in response to receiving the first downlink control message; receiving, by the base station, a first portion of the collected illicit vehicle image data transmitted by the mobile terminal using a first receive beam of the base station on a first set of symbols and a first set of subcarriers of a first subframe; receiving, by the base station, a second portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the first subframe; determining, by the mobile terminal, whether transmitting data to the base station on a first transmit beam of the mobile terminal violates a maximum allowed exposure limit; determining, by the mobile terminal, whether transmitting data to the base station on a second transmit beam of the mobile terminal violates a maximum allowed exposure limit; transmitting, by the mobile terminal, a first PUCCH message to the base station indicating to the base station to stop scheduling uplink resources on the first transmit beam of the mobile terminal if it is determined that transmitting data to the base station on a first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that transmitting data to the base station on a second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, transmitting, by the base station, a second downlink control message to the mobile terminal indicating to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of a second subframe in response to receiving the first PUCCH message, indicating to the mobile terminal to use the second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe, the second downlink control message indicating to the mobile terminal to use the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe The second transmit beam transmits uplink data; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the second downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the second downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected illicit vehicle image data transmitted by the mobile terminal using a second receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe, transmitting, by the mobile terminal to the base station, a second PUCCH message if it is determined that the transmission of data to the base station on the first transmit beam of the mobile terminal violates the maximum allowed exposure limit and it is determined that the transmission of data to the base station on the second transmit beam of the mobile terminal also violates the maximum allowed exposure limit, wherein the second PUCCH message indicates to the base station to cease scheduling of uplink resources on the first transmit beam of the mobile terminal and to cease scheduling of uplink resources on the second transmit beam of the mobile terminal; monitoring, by the mobile terminal, a first reference signal transmitted by the base station on a third transmit beam of the base station and a second reference signal transmitted by the base station on a fourth transmit beam of the base station in response to transmitting the second PUCCH message to the base station; determining, by the mobile terminal, a third transmission beam of the mobile terminal for transmitting uplink data to the base station based on a first signal strength of the first reference signal and a second signal strength of the second reference signal in response to listening for the first reference signal transmitted by the base station on a third transmission beam of the base station and for the second reference signal transmitted by the base station on a fourth transmission beam of the base station, wherein transmitting data to the base station on a third transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, responsive to determining the third transmit beam of the mobile terminal for transmitting uplink data to the base station, determining, by the mobile terminal, a third receive beam of the base station that is paired with the third transmit beam of the mobile terminal based on the first signal strength of the first reference signal and the second signal strength of the second reference signal;

transmitting, by a mobile terminal, a third PUCCH message to a base station in response to determining a third receive beam of the base station that is paired with a third transmit beam of the mobile terminal, wherein the third PUCCH message indicates to the base station the third receive beam of the base station; transmitting, by the base station to the mobile terminal, a third downlink control message in response to receiving the second PUCCH message and a third PUCCH message, wherein the third downlink control message indicates to the mobile terminal to transmit uplink data using a third transmit beam for the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe, the third downlink control message indicates to the mobile terminal to transmit uplink data using the third transmit beam for the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the third downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a third transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the third downlink control message; receiving, by the base station, a third portion of the collected contra-parking vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the first set of subcarriers of the second subframe; receiving, by the base station, a fourth portion of the collected illicit vehicle image data transmitted by the mobile terminal using a third receive beam of the base station on the first set of symbols and the second set of subcarriers of the second subframe, transmitting, by the mobile terminal to the base station, a fourth PUCCH message if it is determined that transmitting data to the base station on the first transmit beam of the mobile terminal does not violate the maximum allowed exposure limit and it is determined that transmitting data to the base station on the second transmit beam of the mobile terminal does not violate the maximum allowed exposure limit, wherein the fourth PUCCH message indicates to the base station to continue scheduling uplink resources on the first transmit beam of the mobile terminal and uplink resources on the second transmit beam of the mobile terminal;

transmitting, by a base station to the mobile terminal, a fourth downlink control message in response to receiving the fourth PUCCH message, wherein the fourth downlink control message indicates to the mobile terminal to transmit uplink data using a first transmit beam of the mobile terminal on a first set of symbols and a first set of subcarriers of a second subframe, and the fourth downlink control message indicates to the mobile terminal to transmit uplink data using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe; transmitting, by the mobile terminal, a third portion of the collected contra-parking vehicle image data to the base station using the first transmit beam of the mobile terminal on the first set of symbols and the first set of subcarriers of the second subframe in response to receiving the fourth downlink control message; transmitting, by the mobile terminal, a fourth portion of the collected contra-parking vehicle image data to the base station using a second transmit beam of the mobile terminal on the first set of symbols and the second set of subcarriers of the second subframe in response to receiving the fourth downlink control message.

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