BR102012027231A2 - DEVICE FOR DETERMINING SURVEY SITE AND TECHNICAL INSPECTION OF THE INSTALLATION OF A NEW WIRELESS COMMUNICATION NETWORK INFRASTRUCTURE - Google Patents

Abstract

DEVICE FOR DETERMINING THE SURVEY PLACE AND TECHNICAL INSPECTION OF THE INSTALLATION OF A NEW WIRELESS COMMUNICATION NETWORK INFRASTRUCTURE New device for determining the place of inspection and technical inspection of the installation of a new wireless communication network infrastructure, which is intended to carry out a "site-survey", equipped with radio transceiver, video camera and GPS, remotely powered by optical fiber through an opto-electric transducer, mounted on a cable-stayed inflatable balloon with retractable lift identified meter-by-meter, forming a set capable of identifying suitable locations and heights for the installation of radio communication equipment in sight conditions for central base stations of point-to-point and point-multipoint systems.

Description

DEVICE FOR DETERMINING SURVEY SITE AND TECHNICAL INSPECTION OF THE INSTALLATION OF A NEW WIRELESS COMMUNICATION NETWORK INFRASTRUCTURE.

Application field:

The present invention relates to an overhead device of

determination of the site of inspection and technical inspection for installation of wireless communication network among other purposes.

Description of the prior art:

The use of large-scale balloon-mounted cameras dates back to the 1980s. The first artifact was originally designed for aerophotogrammetry applications for top-down aerial imagery for photographic mapping of soil and of its occupation over certain areas and for different purposes, such as scientific, geographical, urban, military, and others. Another very common use of balloon cameras is for the purpose of surveillance over critical areas, especially at events or other occasions of large human gathering. The use of radio transmitting balloons is common in meteorological applications, where temperature, wind, humidity sensors are connected to this same radio, among other climatological quantities of interest to scientific monitoring, whose data are exchanged with collecting and recording terrestrial bases. information. Similarly, data from aerial photography or surveillance cameras can commonly be sent to a ground station via radio transmitters integrated with these cameras and capable of sending to a receiving base the scanned images captured in real time or stored by the system in the balloon. , and collected and processed later after balloon retraction.

Site inspection is known in the state of the art as a methodology applied to the detailed technical inspection of the site that will be the object of the installation of a new network infrastructure, in the evaluation of the results obtained with the improvements of the existing infrastructure. or even identifying and troubleshooting a system that is already in operation. This procedure is normally performed during the assessment of a technology project, whether in surveying the necessary infrastructure such as connectivity devices, cables, accessories, antennas and others, or for the implementation of a new structured network, installation of radio frequency equipment 5. , wireless networks, etc., to maximize coverage and efficiency, optimize the line of sight between antennas, as well as reduce investment costs. A line of sight is also understood to be the imaginary line that joins two objects without intercepting obstacles, so that a person in the position of one object can see the other point without hindrance.

Area inspection activities for coverage mapping and targeting conditions on point-to-multipoint or point-to-point radio systems are commonly performed visually through binoculars, beams or cameras carried by the survey technician. which transports them to the places and heights of interest using ladders, building slabs, walls, trees or other mechanical lifting systems such as scaffolding, cranes, cranes, etc.

Some documents describe remote airway inspection systems intended for a variety of applications, but none of these devices or equipment have the configuration, application and operation described in this patent. These documents include the following:

Patent document PI9104691-2 (Air Robot with Control, Stabilization and Navigation System), which deals with improvements made to a remote controlled mini helicopter so that it can perform service at great heights and distances or in hard to reach places, and Equipped with a microcomputer, sensors, camera or video camera positioning system to perform real-time image observations and visual recording, including obtained through specialized cameras, such as 30 infrared, and can operate at night for inspection. from elevated structures or places difficult to reach by other means. Can said robot also carry and release relief material such as ropes, buoys etc .; Patent Document Pl 9905506-6 (Autonomous Aerial Inspection Platform), which describes an autonomous aerial inspection platform, a stabilized, remotely controlled vehicle, and its steerability is based on the counterweight position.

5 Patent Document US20090103909 (Aerial Camera Support

Structure), which describes an antenna support structure for capturing images of objects in an observed area including a first and second anchor and at least one transport cable mounted on at least one of the first and second anchors (Figure 1). . A balloon is attached to the carrying cable, and 10 is movable relative to the first and second anchors. The chamber is suspended from the balloon.

US20100270425 (Apparatus and System for Providing Surveillance of an Area or a Space), wherein the invention is an apparatus and system for providing zone or space surveillance. According to some embodiments of the invention, there may be provided a casing containing a detachable and inflatable surveillance balloon, which may lift the balloon and / or support a surveillance load, including one or more sensor assemblies. The data collected by the sensors can be transmitted to a user interface, which can present the data to the user.

US20100270425 describes a balloon camera system for the purpose of area or space surveillance. The device carries accelerometers, timers and impact sensors as well as a sensor data processing circuit. On page 4 of this patent document, in its item [065], the text mentions several possible forms of wireless communication between the sensor circuit and a user interface, but the purpose of this radio interface is only for the transport of the sensor and surveillance camera data and is not intended to analyze the optical sight and radio frequency signal conditions of the monitoring point in question.

Notwithstanding the solutions found in the prior art, solutions are desirable for the use of a hoisted ballast balloon system, camera, GPS as an alternative for automatic device position and height collection, and a radio transceiver to support the performance of an inspection. optical and electromagnetic area at various locations and heights around a current or future central base station of a point-to-point or point-to-point system.

Description of Figures:

The invention will be better understood from the detailed description and the related figures, of which:

Figure 1 illustrates the system proposed in US20090103909

balloon, holder and camera, as an illustration of the state of the art.

Figure 2 illustrates the system proposed in US20100270425 which describes a balloon camera system for the purpose of area or aerophotogrammetric space surveillance as another illustration of the state of the art.

Figure 3 schematically represents a diagram of the

elements that make up the device proposed in the present invention, operating at one of the survey points of a point-to-point terrestrial wireless access system.

Detailed Description of the Invention:

The following describes a non-restrictive preferred form of

realization of the present device, object of this patent, where the configuration and application may vary in the form suitable for each desired model; describing one of the constructive possibilities that lead to the concretization of the object described and the way in which it works.

The device for determination of inspection site and inspection

The technique of installing a new wireless communication network infrastructure, object of the present patent, has as main objective to provide an auxiliary system for optical and electromagnetic site surveys, based on a video camera and radio transceiver powered by optical means. Through a

opto-electric transducer, supported by a balloon inflated with helium gas or equivalent and anchored to a ground-based structure capable of lifting the raised assembly.

It is also an object of the present invention to propose a retractable balloon support mechanism which allows the balloon to be adjusted and measured in height and to stabilize the balloon while capturing 360 degree images around the point and communicating the radio transceiver with central Station.

It is also an object of the present invention to propose a retractable fiber optic mechanism that enables the power supply of the camera and radio transceiver assembly via a balloon-supported opto-electric transducer as well as the transport of signals and data captured by the same array. and intended for the ground system base.

In addition, another advantage of the proposed airborne inflatable balloon system is that the transmitter radio coupled to the assembly is immune to electromagnetic interference potentially generated by electric motors if helicopters or quadcopters were used, as proposed by Pl 9104691-2, described in state of the art.

Thus, the device for determining the site of inspection and the technical inspection of the installation of a new wireless communication network infrastructure, object of the present patent, basically comprises: a video camera with radio interface (client mesh) and rotary base of 360 degree (310), which allows 360-degree images to be captured around the survey monitoring point and wirelessly communicates with the central base station allowing the evaluation of the RF signal level in the link between the monitoring point. concerned and the central base station; an opto-electric transducer circuit 25 present in the balloon responsible for the assembly's power supply; a mooring ring (320) for stabilizing the inflatable gas balloon to retractable mooring lines; a gas inflatable balloon 330 facing the camera having a central through-hole for accessing the fiber optic cable from the base of the device to the ground; at least 30 four retractable mooring lines (340) for attaching the rim and balloon to the base of the device on the ground; at least four lashing tubes (350) for spacing and guiding the lashings to the center of the base of the device on the ground to provide greater stability of the balloon relative to the vertical ground (zenith), even under conditions of moderate wind; at least one retractable fiber optic cable (360) intended for power to the camcorder preferably by the POF 5 (Power over Fiber) technique from a source and battery installed in the base of the device on the ground; a base with source and battery (370) for powering and stabilizing the assembly from ground during use. There is also the option of incorporating a Global Positioning Satellite (GPS) receiver next to the camera and the transceiver radio into the device as an alternative to automatically collecting camera position and height (310).

Although the invention has been described in connection with certain preferred embodiments and component elements, it should be understood that it is not intended to be limited to those particular embodiments. Rather, it is intended to cover all possible alternatives, modifications and equivalents within its spirit and scope.

Accordingly, the device for determining the site of inspection and the technical inspection of the installation of a new wireless communication network infrastructure, object of the present patent, as described above, presents a new and unique configuration which gives it great advantages 20 over means and devices currently known to perform the survey location and technical inspection functions of the installation of a new communication network infrastructure, as there are no equivalent devices on the market to meet the current needs for survey, inspection and implementation of wireless communication infrastructure. 25 These advantages include the ease of carrying out inspection, verification and surveys without the use of elements such as ladders and others that may endanger the technician's life, offering safety and precision in operation. In addition, the use of a camera-mounted radio transmitter not only allows optical sight inspection but also assesses the relative propagation conditions and RF signal level in each direction around the survey monitoring point. In addition, a proposed balloon-driven system rather than electric-powered helicopters or quadcopters has the advantage that the coupled radio transmitter is immune to electromagnetic interference potentially generated by electric motors.

Thus, by the configuration and operation characteristics described above, it can be clearly noted that the DEVICE FOR DETERMINING SURVEY SITE AND TECHNICAL INSPECTION OF THE INSTALLATION OF A NEW WIRELESS COMMUNICATION NETWORK INFRASTRUCTURE is a new device. for the State of the Art, which has the conditions of innovation, inventive activity and unprecedented industrialization, which make it deserve the Patent Privilege of 10 Invention.

Claims (1)

1. DEVICE FOR DETERMINING SURVEY SITE AND TECHNICAL INSPECTION OF THE INSTALLATION OF A NEW WIRELESS COMMUNICATION NETWORK INFRASTRUCTURE, characterized in that it is a device for determining the location of a survey and the technical inspection of the installation of a new network infrastructure. wireless communication system, which is intended for a site survey comprising basically: a camcorder with radio interface (client mesh) and 360 degree rotating base (310) for capturing images 360 degrees around the point monitoring survey that performs wireless communication with the central base station and assesses the RF signal level at the link between the monitoring point in question and the central base station; an opto-electric transducer circuit present in the balloon to power the assembly; a mooring ring (320) for stabilizing the inflatable gas balloon to retractable mooring lines; a GPS (Global Positioning Satellite) receiver near the camera and the transceiver radio as an alternative to automatically collecting camera position and height (310); a gas inflatable balloon 330 facing the camera having a central through hole for accessing the fiber optic cable from the base of the device to the ground; at least four retractable mooring lines (340) for attaching the rim and balloon to the base of the device on the ground; at least four lashing tubes (350) for spacing and guiding the lashings from the center of the base of the device on the ground; at least one retractable, marked-to-length (360) fiber optic cable for powering the camcorder preferably by the Power over Fiber (POF) technique from a power source and battery installed at the base of the ground device; a power supply base and battery (370) for powering and stabilizing the assembly from ground during use.