KR102420840B1 - Method and apparatus for providing a job recruiting platform based on metaverse service - Google Patents

Abstract

According to various embodiments, a job recruiting platform providing server for providing a matching service between a job seeker and a corporate recruiter comprises: a member management unit for registering the job seeker as a member based on job search information obtained from a job seeker terminal of the job seeker, and registering the recruiter as a member based on job recruiting information obtained from a recruiter terminal of the recruiter; a job recruiting matching unit which matches the job seeker with the recruiter based on the job recruiting information and the job search information; a metaverse service providing unit which generates a metaverse space based on a floor plan and floor height information of a corporate building obtained from the recruiter terminal, generates a virtual object corresponding to an object in real space, and outputs the generated metaverse space and the virtual object to a first device of the job seeker and a second device of the recruiter, respectively; an object identification unit for identifying the object and determining the type of the object; and an interview progressing unit which transmits a question image obtained from the second device to the first device, obtains a job seeker answer voice signal based on an audio system installed in the first device, and outputs the obtained answer voice signal through a speaker mounted in the second device. The present invention can provide convenience to both the job seeker and the recruiter.

Description

METHOD AND APPARATUS FOR PROVIDING A JOB RECRUITING PLATFORM BASED ON METAVERSE SERVICE

The present invention relates to a method and apparatus for providing a job search platform for matching job seekers and job seekers, and more particularly, based on a metaverse service, a job seeker efficiently selects a company to work for, and a job seeker efficiently selects a job seeker It relates to a method and apparatus for providing a job search platform that allows people to choose from

Human Resource Management System (HRMS) is a system that secures, develops and manages human resources of a company. It is a system that connects and manages job seekers and job seekers through the requirements of job seekers and job seekers. The conventional human resource system collects resumes from job seekers online, collects requirements from job seekers online, matches the history information and requirements for the collected resumes, and provides the results to job seekers or job seekers. It stopped.

That is, since the existing job search system provided only limited information such as information entered as text or image files by companies or job seekers, mutual trust in the information itself could not be guaranteed. For example, since it is difficult for companies to fully understand information about the personality, impression, and image of a job seeker through information on the Internet, even if they like the job seeker's history on the Internet, they do not hire a job seeker because the evaluation after the interview is different. there are cases where it doesn't. Also, from the point of view of job seekers, since they cannot know information about the corporate atmosphere or working environment through information on the Internet, there are cases where they leave the company shortly after being hired.

However, in recent years, with the development of technology, users have become able to use various services through not only flat images but also three-dimensional images. It also provides visualization services at the same time, and a representative service among them is metaverse. This metaverse is a compound word of 'meta', which means fictitious and abstract, and 'universe', which means the real world, and means the connection between the three-dimensional virtual space and the real space. The metaverse is a concept including, for example, virtual reality, augmented reality, and mixed reality.

The metaverse can be expanded infinitely according to the user's participation, and characters, environments, and spaces can be freely selected. For example, a user may create a terrain and place desired natural objects and facilities on the terrain. Alternatively, the user may determine the appearance of the avatar in a non-human form, such as humans, animals, and other fantasy creatures. An avatar is a method of graphical representation of a user that other users in a virtual space can see and interact with, and a user in the real space uses the avatar to interact with the avatars of other users in the virtual space, and various economics in the virtual space. Activities, cultural activities, educational activities, etc. can be carried out. As such, experiencing a three-dimensional space has become a new trend in user experience, and a user can simulate in a virtual space, be provided with visual and other sensory experiences, and interact with virtual images.

Therefore, by combining the above metaverse service with the Human Resource Management System (HRMS) in various ways, job seekers have the opportunity to experience in advance before joining the company, or face-to-face is difficult for job seekers. In this case, a method for remotely judging job seekers needs to be devised.

An object of the present invention for solving the above problems is to provide a job search platform for job seekers and job seekers based on the metaverse service.

According to various embodiments, a job search platform providing server that provides a matching service between job seekers and a job search officer of a company registers the job seeker as a member based on the job search information obtained from the job seeker terminal of the job seeker, a member management unit for registering the recruiting person in charge as a member based on the job offer information obtained from the person in charge terminal; a job search matching unit for matching the job seeker with the job seeker based on the job information and the job search information; A metaverse space is generated based on the floor plan and floor height information of a corporate building obtained from the recruiter terminal, and a virtual object corresponding to an object in a real space corresponding to the inside of the company is generated, and the generated metaverse space is generated. and a metaverse service providing unit that outputs the virtual object to a first device that is a metaverse device of the job seeker and a second device that is a metaverse device of the job seeker. an object identification unit that identifies the object in the real space corresponding to the inside of the enterprise, determines the type of the object, and provides information on the determined type of the object to the metaverse service provider; and transmitting the question image obtained from the second device to the first device, obtaining an answer voice signal of the job seeker based on an audio system mounted on the first device, and using the obtained answer voice signal as the first device 2 It may include an interview process unit that outputs through a speaker mounted on the device.

According to various embodiments of the present disclosure, the metaverse service providing unit obtains an input signal indicating the current location of the hiring manager from the recruiting agent terminal, and uses a global positioning system (GPS) function installed in the second device. Obtaining information on the current location of the recruiting person, obtaining direction information of the hiring manager from the second device, and positioning the current location of the avatar corresponding to the hiring manager in the metaverse space based on the direction information and generates real-time spatial information based on real-time distance data acquired from a distance sensor mounted on the second device and real-time image data acquired from an image sensor mounted on the second device, and generated real-time spatial information and The metaverse space may be compared, and a portion overlapping the real-time spatial information and the metaverse space may be maintained, and a different portion may be modified based on the real-time spatial information.

According to various embodiments, the object identification unit identifies an object based on point coordinates of distance data obtained from the distance detection sensor and pixel values of image data obtained from the image sensor, but detects the 360-degree rotatable distance Point cloud information corresponding to an object within a sensing radius of the distance sensing sensor is obtained through a sensor and the image sensor, and the point cloud information is mapped to correspond to an azimuth of the sensing radius of the distance sensing sensor, and the point cloud The information may include distance information from the distance sensor to the object.

According to various embodiments, the job search platform providing server, based on a movement corresponding to the job seeker's avatar in the metaverse space, further comprises a job search interest determination unit that determines the job search interest of the job seeker in the company, The job search interest determination unit tracks the path traveled by the job seeker's avatar within the created metaverse space, and in each of the individual spaces where the job seeker's avatar has moved within the metaverse space, the Based on the distance traveled by the job seeker's avatar and the length of time the job seeker's avatar stays in each of the individual spaces, the job seeker's interest in job search for the company may be determined.

According to various embodiments, the job search matching unit may include a recommended identifier in the job seeker information of the job seeker if the determined job search interest level is greater than or equal to a preset reference level of interest, and list the job seeker in the company's recommended job seeker list, The recommended job seekers list in which the job seekers are listed may be provided to the job seeker terminal.

According to various embodiments, a method of providing a matching service between a job seeker and a job seeker in a company registers the job seeker as a member based on job search information obtained from the job seeker terminal of the job seeker, registering the person in charge of the job offer as a member based on the obtained job information; matching the job seeker with the job seeker based on the job search information and the job search information; generating a metaverse space based on the floor plan and floor height information of the corporate building obtained from the recruiter terminal; outputting the generated metaverse space to a first device that is a metaverse device of the job seeker and a second device that is a metaverse device of the job seeker; identifying an object in a real space corresponding to the inside of the enterprise; transmitting the question image obtained from the second device to the first device; obtaining an answer voice signal of the job seeker based on the audio system mounted on the first device; and outputting the obtained answer voice signal through a speaker mounted in the second device.

According to various embodiments, the server may include a non-transitory recording medium in which a program for executing the method is recorded and readable by a computer.

According to various embodiments, the job search platform providing server may include a computer program recorded in a non-transitory recording medium to execute the method.

According to various embodiments, a system for providing a job search platform based on a metaverse service includes: a job seeker terminal of a job seeker; a first device that is the metaverse device of the job seeker; Recruitment officer terminal of the company's recruitment officer; a second device that is the metaverse device of the recruiter; and a job search platform providing server that is interlocked with the job seeker terminal, the job search manager terminal, the first device, and the second device, and provides a matching service between the job seeker and the job search manager of the company. The job search platform providing server may include: a member management unit that registers the job seeker as a member based on the job search information obtained from the job seeker terminal, and registers the job seeker as a member based on the job search information obtained from the job search manager terminal; a job search matching unit that matches the job seeker with the job search manager based on the job information and the job search information; a metaverse service providing unit for generating a metaverse space based on the floor plan and floor height information of the corporate building obtained from the recruiting officer terminal, and outputting the generated metaverse space to the first device and the second device, respectively; an object identification unit for identifying an object in a real space corresponding to the inside of the enterprise; and transmitting the question image obtained from the second device to the first device, obtaining an answer voice signal of the job seeker based on an audio system mounted on the first device, and using the obtained answer voice signal as the first device 2 A system for providing a job search platform, including an interview process unit that outputs through a speaker mounted on the device.

According to various embodiments of the present disclosure, the metaverse service providing unit may determine the use of space for each individual space of the metaverse space based on the information on the use of each space within the company obtained from the recruiting officer terminal, and The type of department is determined for each office based on information about the type of department for each office obtained from the person in charge terminal, the movement path of the job seeker is tracked within the metaverse space, and the job seeker enters a specific individual space. In this case, information on the departmental environment of the department corresponding to the specific individual space is provided to the job seeker terminal, and the information about the departmental environment includes information on the average working time, average leaving time, and average working time of the department. including, outputting a business delivery voice signal including the business content of the department through a speaker of the first device, obtaining a business approval signal corresponding to the business delivery voice signal from the first device, and the business approval signal In the case of obtaining , a work list including the work contents of the department may be provided to the job seeker terminal.

According to various embodiments, the object identification unit quantizes the point cloud information at a constant quantization interval at an azimuth between the sensing radii, and converts the quantized point cloud information based on the azimuth to a rotation angle or rotation measured by the distance sensor. Among the frames based on the point cloud information framed and quantized according to the direction, distance information of each of points mapped to a specific azimuth in the first frame for two frames temporally adjacent to each other A difference frame is generated by differentiating the first average value of the first distance values and the second average values of the second distance values, which are distance information of each of the points mapped to the specific azimuth in the second frame, to generate a difference frame. When the average value of the third distance values, which is distance information of each of the points mapped to a specific azimuth, is equal to or greater than a preset threshold, the object may be determined as the object to be identified.

According to various embodiments, the object identification unit identifies the object based on the image data of the object determined as the object to be identified, but uses a pre-supervised learning object guessing model to determine the type of the object to determine, the object guessing model is supervised learning using the image data for the object and the labeled data for the object recognized from the image data by the object guessing model learning unit, the labeled data is the It is data labeling the type of object, and the object identification unit converts the image data into an input image of a preset size in the supervised and learned object guessing model and inputs it to the object guessing model, and outputs the object guessing model may determine the type of the object included in the image data based on

According to various embodiments, the job search interest determining unit determines the job search interest through the following equation,

In the above formula, J is the job search interest, n is the number (number) of the individual spaces to which the job seeker's avatar has moved, and M _i- is the distance traveled in each of the individual spaces to which the job seeker's avatar has moved (m) ), A _i is the area (flat) of each of the individual spaces, v _i is the weight for the moved distance, and P _i is the time the job seeker stayed in each of the individual spaces where the job seeker's avatar moved (minutes) ), w _i is a weight for the staying time, x _i is a weight for each of the individual places, and the sum of v _i- and w _i may be 1.

According to various embodiments disclosed in this document, a job seeker may have a pre-employment experience such as an internship experience before joining a company.

In addition, according to various embodiments, in a situation where face-to-face interview is difficult, a remote interview can be conducted based on the metaverse service, thereby providing convenience to both job seekers and recruiters.

In addition, according to various embodiments of the present disclosure, it is possible to calculate the job search interest of the job seeker in the company, thereby helping the recruitment in terms of the person in charge of the job search.

In addition, various effects directly or indirectly identified through this document may be provided.

1 is a diagram illustrating a system for providing a job search platform according to an embodiment.
2 is a view showing the main components of the job search platform providing server.
3 is a diagram illustrating a plan view of a corporate building obtained from a terminal in charge of recruitment.
4 is a diagram illustrating the generation of a metaverse space based on the floor plan and floor height information of the corporate building obtained from the terminal in charge of recruitment and data obtained through the metaverse device of the person in charge of the recruitment.
5 is a diagram illustrating an arrangement of an identified object (eg, a person) in a metaverse space in real time.
6 is a diagram for experiencing a virtual intern experience service through a metaverse space.
7 is a diagram illustrating a hardware configuration of the job search platform providing server according to FIG. 1 .
8 is a diagram illustrating a wireless communication system that can be applied in a communication process according to an embodiment of the present invention.
9 is a diagram illustrating a base station in the wireless communication system according to FIG. 8 .
FIG. 10 is a diagram illustrating a terminal in the wireless communication system according to FIG. 8 .
11 is a diagram illustrating a communication interface in the wireless communication system according to FIG. 8 .

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing each figure, like reference numerals have been used for like elements.

Terms such as first, second, A, and B may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. and/or includes a combination of a plurality of related listed items or any of a plurality of related listed items.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a job search platform providing system 10 in one embodiment. Referring to FIG. 1 , the job search platform providing system 10 may include a job search platform providing server 100 , a job seeker terminal 200 , a job search manager terminal 300 , and the like. The operations described below may be performed or implemented through a platform (eg, a web page and/or an application) controlled by the server 100 . In other words, the job search platform providing server 100, the job seeker and the job search manager connect to the job search platform providing server 100 through the network using the job seeker terminal 200 and the job search manager terminal 300, respectively, and various information An application that can provide a website that can input, register, and output, and that can input, register, and output various information by being installed and executed in the job seeker terminal 200 and the job seeker terminal 300 can provide

The job search platform providing server 100 may obtain job search information from the job seeker terminal 200 and obtain the job search information from the job seeker terminal 300 . The job search platform providing server 100 may match job seekers and job seekers based on job search information and job information. The job search platform providing server 100 transmits the company information of the company corresponding to the job search information of the job seeker to the job seeker terminal 200, and transmits the job seeker information of the job seeker corresponding to the company's job information to the job seeker terminal 300 By doing so, it is possible to provide a job search matching service.

The job search platform providing server 100 may not only provide a job search matching service, but also provide a virtual intern experience service and a remote interview service. A metaverse space (eg, a VR space) may be output through the first device 201 worn by the job seeker and the second device 301 worn by the hiring manager. Job seekers and recruiters can experience virtual internship experience service and remote interview service through the metaverse space.

The hiring manager terminal 300 may provide a floor plan and floor height (height) information of a corporate building to the job search platform providing server 100 . In addition, the hiring manager terminal 300 may provide office furniture arrangement information, office product placement information, wallpaper information, and the like to the job search platform providing server 100 . In addition, the hiring manager terminal 300 may provide an internal image of the company to the job search platform providing server 100 . Here, the floor plan and floor height (height) information of the corporate building, office furniture arrangement information, office product arrangement information, wallpaper information, etc. may be included in the data previously stored by the recruiter in the recruiter terminal 300 .

The job seeker terminal 200 and the job seeker terminal 300 are communicable desktop computers, laptop computers, notebooks, smart phones, tablet PCs (tablet PCs), mobile phones. (mobile phone), smart watch, smart glass, e-book reader, PMP (portable multimedia player), portable game console, navigation device, digital camera, DMB (digital) multimedia broadcasting) player, digital audio recorder, digital audio player, digital video recorder, digital video player, and PDA (Personal Digital Assistant), etc. can

The job search platform providing server 100 , the job seeker terminal 200 , and the job search manager terminal 300 are respectively connected to a communication network, and may transmit/receive data to and from each other through the communication network. For example, communication networks include Local Area Network (LAN), Metropolitan Area Network (MAN), Global System for Mobile Network (GSM), Enhanced Data GSM Environment (EDGE), High Speed Downlink Packet Access (HSDPA), W-CDMA (Wideband Code Division Multiple Access), CDMA (Code Division Multiple Access), TDMA (Time Division Multiple Access), Bluetooth, Zigbee, Wi-Fi, VoIP (Voice over Internet Protocol) , LTE Advanced, IEEE802.16m, WirelessMAN-Advanced, HSPA+, 3GPP Long Term Evolution (LTE), Mobile WiMAX (IEEE 802.16e), UMB (formerly EV-DO Rev. C), Flash-OFDM, iBurst and MBWA (IEEE) 802.20) systems, HIPERMAN, Beam-Division Multiple Access (BDMA), Wi-MAX (World Interoperability for Microwave Access), 5G, etc., various types of wired or wireless networks can be used.

2 is a view showing the main components of the job search platform providing server 100. The job search platform providing server 100 includes a member management unit 101, a job search matching unit 102, a metaverse service providing unit 103, an interview process unit 104, a job search interest determination unit 105 and an object identification unit. (106) and the like.

The member management unit 101 registers the job seeker of the job seeker terminal 200 as a member based on the job search information obtained from the job seeker terminal 200, and based on the job search information obtained from the job seeker terminal 300, the job seeker You can register as a member.

The job search information may include job seeker information and desired company information. The job seeker information may include information about the job seeker name, job seeker age, job seeker residence, job seeker qualification, job seeker educational background, job seeker history, job seeker introduction text, job seeker introduction video, and the like. The desired company information may include information about a desired company, a desired industry, a desired job, a desired department, a desired field, a desired division, a desired annual salary, a desired work location, and the like. The desired job information may include information about a department, job, field, position, position, work type (part-time system, flexible work system, telecommuting, commuting, out-of-home work, etc.).

Recruitment information includes information about desired talent information, company information, job information, company news, company introduction video, company question video, company questionnaire, company recruitment list, company hiring details, ongoing hiring, closed hiring, pending hiring, etc. can do. Desired talent information may include information about the job seeker's age, job seeker's residence, job seeker history information, job seeker introduction text, and job seeker introduction video. Company information includes company name, number of employees, work type, investment attraction stage, sales, net profit, annual salary, salary setting timing, incentive system, welfare system (convenience facilities, lunch, overtime meals, basic necessities, travel expenses, travel vehicle) provision, support for congratulations and condolences, various allowances), etc. may be included. The company introduction video may include a greeting video of a representative, a greeting video of an employee, and the like.

The job search matching unit 102 may match a job seeker registered as a member with a job seeker registered as a member. The job search matching unit 102 may match the job seeker and the person in charge of the job search based on the job information and the job search information. The job search matching unit 102 may provide a list of companies that match the job search information to the job seeker terminal 200 , and may provide a list of job seekers matching the job offer to the job seeker terminal 300 .

The job search matching unit 102 may provide company information of a company desired by the job seeker to the job seeker terminal 200 based on the job information. The job search matching unit 102 may provide job seeker information of the job seeker desired by the company to the job search officer terminal 300 based on the job search information.

The metaverse service providing unit 103 may provide a virtual internship experience service to job seekers and recruiters based on the metaverse service. The metaverse service provider 103 may obtain the floor plan and floor height (height) information of the corporate building from the hiring manager terminal 300 to create a metaverse space (eg, a VR space). The floor plan of the corporate building may include dimension information for each space. The dimension information may include horizontal length information and vertical length information.

The metaverse service providing unit 103 may determine the use of the space for each individual space of the generated metaverse space. The metaverse service providing unit 103 may obtain information on the use of a space for each individual space from the recruiting person in charge terminal 300 . The use of the space may include a conference room, an office, a toilet, a furnishing room, a bath room, and the like.

The metaverse service providing unit 103 may determine the type of department for each office. The metaverse service providing unit 103 may obtain information on the type of department for each office from the recruiting person in charge terminal 300 . The metaverse service providing unit 103 may determine a department for each individual space based on information on the type of department. The metaverse service providing unit 103 tracks the movement path of the job seeker (or the job seeker's avatar), and when the job seeker enters a specific individual space, it relates to the department environment and task list of the department corresponding to the specific individual space. Information may be provided to the job seeker terminal 200 . For example, the metaverse service providing unit 103 may provide the job seeker terminal 200 with information about the average attendance time, average leaving time, and average working time of the department. As another example, the metaverse service providing unit 103 may output 'Do you want to proceed with the task of the corresponding department?' and the task delivery voice signal through the speaker of the metaverse device (eg, the first device 201). can The metaverse service providing unit 103 may obtain a task approval signal corresponding to the task delivery voice signal from the metaverse device (eg, the first device 201 ) and/or the job seeker terminal 200 . When the metaverse service providing unit 103 obtains the job approval signal, the metaverse service providing unit 103 may provide a preset job list corresponding to the department to the job seeker terminal 200 .

Job seekers and job seekers can move themselves or their corresponding avatars through voice commands on the metaverse space, and touch input through a movement command interface displayed through the job seeker terminal 200 and/or the job search manager terminal 300 . Alternatively, the user or an avatar corresponding to the user may be moved through a voice input.

The interview proceeding unit 104 obtains information on questions from the hiring manager terminal 300 so that the hiring managers and job seekers can remotely interview, and transmits the information on the obtained questions to the job seeker terminal 200 . can The interview process unit 104 may obtain information on answers, which are answers to the above questions, from the job seeker terminal 200 , and transmit information on the obtained answers to the job seeker terminal 300 .

The interview process unit 104 may transmit a question image obtained from the metaverse device (eg, the second device 301) of the job seeker to the metaverse device (eg, the first device 201) of the job seeker. The question image may be a question image captured through a camera (eg, an image sensor) mounted on a metaverse device (eg, the second device 301 ) of the hiring manager. The interview proceeding unit 104 obtains the job seeker's answer voice signal based on the audio system mounted on the job seeker's metaverse device (eg, the first device 201), and uses the obtained answering voice signal as the job seeker's metaverse The output may be made through a speaker mounted on the device (eg, the second device 301 ).

The job search interest determination unit 105 may calculate or determine the job search interest of the job seeker for the company. In other words, the job search interest determination unit 105 may calculate or determine the job search interest, which is an indicator of how much the job seeker is interested in the company.

From the point of view of the hiring manager, the job seeker who is genuinely interested in the company of the hiring manager and wants to join the job seeker is more preferred than the job seeker who randomly submits job applications to various companies. Calculating or determining the degree of interest in job search for the company, the job search matching unit 102 may provide the calculated or determined degree of interest in job search to the job search manager terminal 300 .

The job search interest determination unit 105 may track the path the job seeker's avatar moves in the generated metaverse space. The job search interest determination unit 105 determines the individual spaces where the job seeker's avatar has moved within the metaverse space, the distance the job seeker's avatar moves in each of the individual spaces, and the individual spaces where the job seeker's avatar stays in each of the individual spaces. Based on time, etc., it is possible to determine the job seeker's interest in the job search for the company. The job search interest determination unit 105 may calculate or determine the job search interest through Equation 1 below.

In Equation 1, J is the job search interest, n is the number of individual spaces to which the job seeker's avatar has moved, M _i- is the distance moved in each of the individual spaces to which the job seeker's avatar has moved, A _i is the area (in flat) of each of the individual spaces, v _i is the weight for the moved distance, P _i is the time (minutes) that the job seeker's avatar stayed in each of the individual spaces where the job seeker's avatar moved, w _i may be a weight for the staying time, and x _i may be a weight for each of the individual places. The sum of v _i- and w _i may be 1, and x _i may have a greater weight in the order of a conference room, an office, a bathroom, and a bathroom.

However, the larger the area of the individual space, the longer the standard time to look around or the longer the distance traveled than the narrow area of the individual space. can

The job search matching unit 102 may determine that the longer the time the job seeker uses the metaverse service for the company, the higher the job seeker's interest in the company is, so the determined job search interest is greater than or equal to the preset reference level of interest. In this case, the recommended identifier is included in the job seeker information of the job seeker, the job seeker is listed on the company's recommended job seeker list, and the recommended job seeker list in which the job seeker is listed can be provided to the job seeker terminal 300 . .

3 is a diagram illustrating a plan view of a corporate building obtained from a terminal in charge of recruitment. 4 is a diagram illustrating the generation of a metaverse space based on the floor plan and floor height information of the corporate building obtained from the terminal in charge of recruitment and data obtained through the metaverse device of the person in charge of the recruitment. 5 is a diagram illustrating an arrangement of an identified object (eg, a person) in a metaverse space in real time. 6 is a diagram for experiencing a virtual intern experience service through a metaverse space.

The metaverse service providing unit 103 may create a metaverse space based on the floor plan and floor height (height) information of the corporate building obtained from the recruiter terminal 300 . The metaverse space generated based on the floor plan and the floor height information may be a 3D stereoscopic space in which office furniture arrangement information, office electronic product arrangement information, wallpaper information, and the like are omitted.

In order to increase the realism of the metaverse space, the metaverse service providing unit 103 provides a virtual object corresponding to the object based on object information obtained through the metaverse device (eg, the second device 301 ) of the recruiting person in charge. can create The metaverse service providing unit 103 may allow the job seeker to indirectly experience in advance before joining the company through the created metaverse space. In other words, the object identification unit 106 identifies the object by using the object information obtained through the metaverse device (eg, the second device 301 ), and the metaverse service provider 103 attaches the identified object to the object. Corresponding virtual objects can be placed in metaverse space. The object information may include office furniture information, office electronic product information, wallpaper information, and the like. Office furniture may include desks, partitions, sofas, hangers, and the like. Office electronic products may include computers, printers, refrigerators, and the like.

The metaverse service providing unit 103 may acquire real-time spatial information and real-time object information so that the person in charge of the job search can feel the company atmosphere in real time through the metaverse device (eg, the second device 301 ).

The metaverse service providing unit 103 may obtain an input signal indicating the current location of the hiring manager from the recruiting agent terminal 300 . The metaverse service provider 103 provides the current location of the recruiter (eg, the current location in real space) through a global positioning system (GPS) function mounted on the metaverse device (eg, the second device 301) of the recruiter. ) can be obtained. The metaverse service providing unit 103 may obtain direction information of the hiring manager from the metaverse device (eg, the second device 301 ) of the hiring manager. The metaverse service providing unit 103 may locate the current location of the avatar corresponding to the recruiter in the metaverse space based on the direction information.

When a recruiter walks around a real space (eg, inside a company) while wearing a metaverse device (eg, the second device 301), the metaverse device (eg, the second device 301) displays real-time spatial information and Real-time object information may be acquired, and the acquired real-time spatial information and real-time object information may be transmitted to the metaverse service provider 103 . Specifically, the metaverse device (eg, the second device 301 ) may include an image sensor, a radar sensor, and/or a distance detection sensor (eg, a ToF sensor, a lidar sensor), and an image through the image sensor It is possible to obtain data, obtain radar data through a radar sensor, obtain distance data through a distance sensor, and obtain distance data through a distance sensor. The metaverse device (eg, the second device 301 ) may transmit or provide the acquired image data, radar data, and/or lidar data to the object identification unit 106 . The image sensor may be included in the camera module. Image data may be referred to as image data.

The metaverse service providing unit 103 generates real-time spatial information based on real-time LiDAR data and image data acquired from the metaverse device (eg, the second device 301 ) of the hiring manager, and generates real-time spatial information and metaverse space can be compared. The metaverse service providing unit 103 may maintain a portion overlapping the real-time spatial information and the metaverse space, and modify or regenerate a different portion of the metaverse space based on the real-time spatial information.

The metaverse service provider 103 transfers the generated metaverse space to the job seeker's metaverse device (eg, the first device 201) and/or the job seeker's metaverse device (for example, the second device 301). can be output through In other words, the metaverse service provider 103 transfers the generated metaverse space to the job seeker's metaverse device (eg, the first device 201) and/or the job seeker's metaverse device (eg, the second device 301). )) to show job seekers. The metaverse service provider 103 may output the metaverse space through at least one display mounted on each metaverse device.

The metaverse service providing unit 103 identifies objects in the real space through the object identification unit 106 in order to create a virtual object to be placed in the metaverse space, and generates a virtual object corresponding to the identified object. Can be placed in metaverse space.

The object identification unit 106 is mounted on the metaverse device (eg, the second device 301), the point coordinates of the distance data obtained from the distance sensor mounted on the metaverse device (eg, the second device 301). The object may be identified based on pixel values of image data obtained from the image sensor. The distance detection sensor may be a 360-degree rotatable lidar sensor and/or a 360-degree rotatable ToF sensor, and the distance detection sensor includes point cloud information corresponding to an object within a sensing radius (eg, 360 degrees) of the distance detection sensor. can be obtained. The point cloud information may be mapped to correspond to an azimuth of a sensing radius of the distance sensor. The point cloud information may include distance information from the distance sensor to the object. The point cloud information may be obtained through a distance sensor and/or an image sensor.

The point cloud information may be quantized at a constant quantization interval at an azimuth between the sensing radii, and the point cloud information quantized based on the azimuth may be framed according to rotation of the distance sensor.

The object identification unit 106 is the distance information of each of the points mapped to a specific azimuth in the first frame with respect to two frames temporally adjacent to each other among the frames based on the quantized point cloud information. The difference frame may be generated by differentiating the first average value of the first distance values and the second average value of the second distance values that are distance information of each of the points mapped to the specific azimuth in the second frame. The object identification unit 106 may determine the object as the object to be identified when the average value of the third distance values, which is distance information of each of the points mapped to a specific azimuth in the generated difference frame, is equal to or greater than a preset threshold value.

The object identification unit 106 may identify the object based on image data of the object determined as the object to be identified. The image data of the object may be acquired by an image sensor mounted on the metaverse device (eg, the second device 301 ) of the hiring manager.

The object identification unit 106 may input image data obtained through the metaverse device (eg, the second device 301 ) to the artificial neural network as input data. The object identification unit 106 may output the type name of the object through an artificial neural network (ANN). The artificial neural network may be implemented using a convolutional neural network (CNN)-based object identification algorithm, such as a single shot detector (SSD), a region with CNN (R-CNN), or you only look once (YOLO).

In an embodiment, the object identification unit 106 may supervised learning an object guessing model according to image data for an object, and the object guessing model may be implemented as an artificial neural network. An artificial neural network is a predictive model implemented in software or hardware that mimics the computational power of a biological system using a large number of artificial neurons (or nodes).

The object guessing model may be supervised by the object guessing model learning unit using 'image data for an object' and 'data labeled with respect to an object recognized from the image data'. In this case, supervised learning means learning to find an output value according to a given input value by using data having an input value and an output value according to it as learning data, and means learning performed in a state where the correct answer is known. For example, the labeled data may be data that labels the type of the object. The set of input and output values given to supervised learning is called training data. That is, the above-described 'image data for object' and 'labeled data' are input and output values, respectively, and may be used as training data for supervised learning of the object guessing model.

In other words, the object identification unit 106 may determine the type of the object using a pre-supervised object guessing model. The object identification unit 106 may convert the image data into an input image of a preset size in the supervised object guess model and input the image data into the object guess model. The object identification unit 106 may determine the type of object included in the image data based on the output of the object guessing model.

The metaverse service providing unit 103 may generate a virtual object corresponding to the object in the metaverse space according to the determined type of the object. For example, when the type of the identified object is a person, the metaverse service provider 103 may generate a virtual avatar corresponding to the person. When the identified object type is a chair, the metaverse service providing unit 103 may create a virtual chair corresponding to the chair.

7 is a diagram illustrating a hardware configuration of the job search platform providing server 100 according to FIG. 1 .

Referring to Figure 7, the job search platform providing server 100 is at least one processor 110 and the at least one processor 110 instructions to instruct to perform at least one operation (operation) It may include a memory (memory) for storing.

The at least one operation may include at least some of the operations or functions of the above-described job search platform providing server 100 , and may be implemented in the form of instructions and performed by the processor 110 .

Here, the at least one processor 110 may mean a central processing unit (CPU), a graphics processing unit (GPU), or a dedicated processor on which methods according to embodiments of the present invention are performed. can Each of the memory 120 and the storage device 160 may be configured as at least one of a volatile storage medium and a non-volatile storage medium. For example, the memory 120 may be one of a read only memory (ROM) and a random access memory (RAM), and the storage device 160 is a flash-memory. , a hard disk drive (HDD), a solid state drive (SSD), or various memory cards (eg, micro SD card).

In addition, the job search platform providing server 100 may include a transceiver 130 for performing communication through a wireless network. In addition, the job search platform providing server 100 may further include an input interface device 140 , an output interface device 150 , a storage device 160 , and the like. Each of the components included in the job search platform providing server 100 may be connected by a bus 170 to communicate with each other. 7, the job search platform providing server 100 has been described as an example, but is not limited thereto. For example, a plurality of user terminals may include the component according to FIG. 7 .

8 is a diagram illustrating a wireless communication system that can be applied in a communication process according to an embodiment of the present invention. 9 is a diagram illustrating a base station in the wireless communication system according to FIG. 8 . FIG. 10 is a diagram illustrating a terminal in the wireless communication system according to FIG. 8 . 11 is a diagram illustrating a communication interface in the wireless communication system according to FIG. 8 .

Hereinafter, an example of a wireless communication network system supporting communication between the job search platform providing server 100 and the job seeker terminal 200 and the job search officer terminal 300 according to the present invention will be described in detail as an example. In the following description, a first node (device) may be an anchor/donor node or a centralized unit (CU) of an anchor/donor node, and a second node (device) may be an anchor/donor node or a distributed unit (DU) of a relay node. can be

As a part of a node using a radio channel in a wireless communication system, a base station (BS), a terminal, a server, and the like may be included.

A base station is a network infrastructure that provides terminals and wireless access to terminals. A base station has coverage defined as a certain geographic area according to the distance over which signals can be transmitted.

A base station is an "access point (AP)", "enodeb (eNB)", "5th generation (5G) node", "wireless point", " It may be referred to as a "transmission/reception point (TRP)".

The base station, the terminal, and the terminal may transmit and receive radio signals in millimeter wave (mmWave) bands (eg, 28 GHz, 30 GHz, 38 GHz, 60 GHz). In this case, the base station, the terminal, and the terminal may perform beamforming to improve the channel gain. Beamforming may include transmit beamforming and receive beamforming. That is, the base station, the terminal, and the terminal may impart directivity to the transmitted signal and the received signal. To this end, the base station, the terminal, and the terminal may select a serving beam through a beam search procedure or a beam management procedure. Thereafter, communication may be performed using a resource that is in a quasi co-located relationship with a resource carrying the serving beam.

The first antenna port and the second antenna port are considered quasi-co-located if the large-scale properties of the channel through which the symbol of the first antenna port is carried can be inferred from the channel through which the symbol of the second antenna port is carried. The large-scale attribute may include one or more of delay spread, Doppler spread, Doppler shift, average gain, average delay, and spatial Rx parameters.

Hereinafter, a base station is exemplified in the above-described wireless communication system. The terms "-module", "-unit" or "-er" used hereinafter may mean a unit that processes at least one function or operation, and includes hardware, software, or hardware and software. can be implemented as a combination of

The base station may include a wireless communication interface, a backhaul communication interface, a storage unit and a controller.

The wireless communication interface performs a function of transmitting and receiving signals through a wireless channel. For example, the wireless communication interface may perform a conversion function between a baseband signal and a bit stream according to a physical layer standard of the system. For example, in data transmission, a wireless communication interface encodes and modulates a stream of transmitted bits to produce complex symbols. In addition, upon data reception, the wireless communication interface demodulates and decodes the baseband signal to reconstruct the received bit stream.

The wireless communication interface performs a function of transmitting and receiving signals through a wireless channel. For example, the wireless communication interface may perform a conversion function between a baseband signal and a bit stream according to a physical layer standard of the system. For example, in data transmission, a wireless communication interface encodes and modulates a stream of transmitted bits to produce complex symbols. In addition, upon data reception, the wireless communication interface demodulates and decodes the baseband signal to reconstruct the received bit stream.

In addition, the wireless communication interface up-converts the base band signal into a radio frequency (RF) band signal, transmits the converted signal through the antenna, and then down-converts the RF band signal received through the antenna into a base band signal. To this end, the wireless communication interface includes a transmission filter, a reception filter, an amplifier, a mixer, an oscillator, a digital-to-analog converter (DAC), It may include an analog-to-digital converter (ADC) and the like. Also, the wireless communication interface may include a plurality of transmission/reception paths. Further, the wireless communication interface may include at least one antenna array including a plurality of antenna elements.

In terms of hardware, the wireless communication interface may include a digital unit and an analog unit, and the analog unit may include a plurality of sub-units according to operating power, operating frequency, and the like. The digital unit may be implemented with at least one processor (eg, a digital signal processor (DSP)).

The wireless communication interface transmits and receives signals as described above. Accordingly, a wireless communication interface may be referred to as a "transmitter", "receiver" or "transceiver". In addition, in the following description, transmission/reception performed through a wireless channel may be used to include processing performed in a wireless communication interface as described above.

The backhaul communication interface provides an interface for performing communication with other nodes in the network. That is, the backhaul communication interface converts the bit stream transmitted to another node, for example, another access node, another base station, a higher node or a core network from a base station converts the physical signal received from the other node into a physical signal. convert to stream

The storage unit stores data such as basic programs, applications, and setting information for operation of the base station. The storage unit may include a volatile memory, a non-volatile memory, or a combination of a volatile memory and a non-volatile memory.

The controller controls the overall operation of the base station. For example, the controller transmits and receives signals through a wireless communication interface or a backhaul communication interface. The controller also writes data to the storage and reads the recorded data. The controller can perform the function of the protocol stack required by the communication standard. According to another implementation, the protocol stack may be included in a wireless communication interface. To this end, the controller may include at least one processor.

According to an embodiment, the controller may control the base station to perform an operation according to an embodiment of the present invention.

According to various embodiments, a donor node of a wireless communication system includes at least one processor, a transceiver operatively coupled to the at least one processor, and a plurality of radio bearers for a terminal accessing the relay node. and send to the relay node a first message including first information related to the donor node regarding receive, from the relay node, a second message including second information related to the relay node regarding a plurality of radio bearers for the terminal; Data for the terminal may be transmitted to the relay node. Data may be transmitted to the terminal through a plurality of radio bearers based on the first information and the second information.

According to various embodiments, a radio bearer among a plurality of radio bearers may aggregate a plurality of radio bearers. the at least one processor is further configured to determine a radio bearer for the terminal accessing the relay node and a multiple radio bearer aggregated by the radio bearer; Alternatively, a radio bearer for a terminal accessing the relay node may be determined.

According to various embodiments, the first message may include one or more of the following: identification of a terminal accessing the relay node; display information indicating the type of terminal accessing the relay node; information on a radio bearer of a terminal accessing a relay node; information on the radio bearer delivered by the terminal accessing the relay node; information on the tunnel established for the radio bearer between the donor node and the relay node; information on the aggregated multiple radio bearers; radio bearer mapping information; information about the address on the side of the donor node; information on the address of the relay node side; indication information corresponding to a radio bearer of a terminal accessing a relay node; indication information indicating a relay node to allocate a new address to a radio bearer for a terminal accessing the relay node; a list of address information that cannot be used by a relay node that transmits data of a radio bearer of a terminal accessing the relay node; and information related to security configuration.

According to various embodiments, the second message may include one or more of the following: identification of a terminal accessing the relay node; information on radio bearers accepted by the relay node; information on radio bearers not acknowledged by the relay node; information on radio bearers partially granted by the relay node; radio bearer mapping information; configuration information of a terminal accessing the relay node generated by the relay node; information on the address of the relay node side; and information related to security configuration.

According to various embodiments, the second message may further include information on the integrated multi-radio bearer.

According to various embodiments, the donor node may include a central unit of the donor node, and the relay node may include a distributed unit of the donor node.

According to various embodiments, a relay node of a wireless communication system includes at least one processor, a transceiver operatively coupled to the at least one processor, and a plurality of terminals accessing the relay node from a donor node. configured to receive a first message including first information related to a donor node regarding a radio bearer of ; transmit a second message including second information related to the relay node regarding the plurality of radio bearers to the terminal to the donor node; It is possible to receive data for the terminal from the donor node. Data may be transmitted to the terminal through a plurality of radio bearers based on the first information and the second information.

According to various embodiments, a radio bearer among a plurality of radio bearers may aggregate a plurality of radio bearers. the at least one processor is further configured to determine a radio bearer for the terminal accessing the relay node and a multiple radio bearer aggregated by the radio bearer; Alternatively, multiple radio bearers aggregated by the radio bearer may be determined.

According to various embodiments, the first message may include one or more of the following: identification of a terminal accessing the relay node; display information indicating the type of terminal accessing the relay node; information on a radio bearer of a terminal accessing a relay node; information on the radio bearer delivered by the terminal accessing the relay node; information on the tunnel established for the radio bearer between the donor node and the relay node; information on the aggregated multiple radio bearers; radio bearer mapping information; information about the address on the side of the donor node; information on the address of the relay node side; indication information corresponding to a radio bearer of a terminal accessing a relay node; indication information indicating a relay node to allocate a new address to a radio bearer for a terminal accessing the relay node; a list of address information that cannot be used by a relay node that transmits data of a radio bearer of a terminal accessing the relay node; and information related to security configuration.

According to various embodiments, the second message may include one or more of the following: identification of a terminal accessing the relay node; information on radio bearers accepted by the relay node; information on radio bearers not acknowledged by the relay node; information on radio bearers partially granted by the relay node; radio bearer mapping information; configuration information of a terminal accessing the relay node generated by the relay node; information on the address of the relay node side; and information related to security configuration.

According to various embodiments, the second message may further include information on the integrated multi-radio bearer.

According to various embodiments, the donor node may include a central unit of the donor node, and the relay node may include a distributed unit of the donor node.

Hereinafter, components of a terminal in the above-described wireless communication system are illustrated. The components of the terminal described below may be merged or integrated with the components of the terminal according to the above-described contents as components of a general-purpose terminal supported by the wireless communication system. Contents described with reference may be interpreted as having priority. The terms “-module”, “-unit” or “-er” used below may refer to a unit that processes at least one function.

The terminal includes a communication interface, a storage unit and a controller.

The communication interface performs a function of transmitting and receiving signals through a wireless channel. For example, the communication interface performs a conversion function between a baseband signal and a bit stream according to the physical layer standard of the system. For example, in data transmission, a communication interface encodes and modulates a stream of transport bits to produce complex symbols. In addition, upon data reception, the communication interface demodulates and decodes the baseband signal to reconstruct the received bit stream. In addition, the communication interface up-converts the base band signal into an RF band signal, transmits the converted signal through the antenna, and then down-converts the RF band signal received through the antenna into a base band signal. For example, the communication interface may include a transmission filter, a reception filter, an amplifier, a mixer, an oscillator, and a digital-to-analog converter (DAC). , an analog-to-digital converter (ADC), and the like.

Also, the communication interface may include a plurality of transmission/reception paths. Further, the communication interface may include at least one antenna array including a plurality of antenna elements. On the hardware side, the wireless communication interface may include a digital circuit and an analog circuit (eg, a radio frequency integrated circuit, RFIC). The digital circuit may be implemented with at least one processor (eg, DSP). The communication interface may include a plurality of RF chains. The communication interface may perform beamforming.

The communication interface transmits and receives signals as described above. Accordingly, a communication interface may be referred to as a "transmitter", "receiver" or "transceiver". In addition, in the following description, transmission/reception performed through a wireless channel may be used to include processing performed in a communication interface as described above.

The storage unit stores data such as basic programs, applications, and setting information for the operation of the terminal. The storage unit may include a volatile memory, a non-volatile memory, or a combination of a volatile memory and a non-volatile memory. In addition, the storage unit provides the stored data according to the request of the controller.

The controller controls the overall operation of the terminal. For example, the controller sends and receives signals through a communication interface. The controller also writes data to the storage and reads the recorded data. The controller can perform the function of the protocol stack required by the communication standard. According to another implementation, the protocol stack may be included in the communication interface. To this end, the controller may include at least one processor or microprocessor or may reproduce a part of the processor. Also, a part of the communication interface or controller may be referred to as a communication processor (CP).

According to an embodiment of the present invention, the controller may control the terminal to perform the operation according to the embodiment of the present invention.

Hereinafter, a communication interface in a wireless communication system is exemplified.

The communication interface includes encoding and modulation circuitry, digital beamforming circuitry, a plurality of transmission paths, and analog beamforming circuitry.

The encoding and modulation circuitry performs channel encoding. At least one of a low-density parity check (LDPC) code, a convolutional code, and a polar code may be used for channel encoding. The encoding and modulation circuitry generates modulation symbols by performing constellation mapping.

The digital beamforming circuit performs beamforming on a digital signal (eg, a modulation symbol). To this end, the digital beamforming circuit multiplexes the modulation symbols by the beamforming weight value. The beamforming weight may be used to change the size and phrase of a signal, and may be referred to as a “precoding matrix” or a “precoder”. The digital beamforming circuit outputs digital beamformed modulation symbols to a plurality of transmission paths. In this case, modulation symbols may be multiplexed or the same modulation symbol may be provided to a plurality of transmission paths according to a multiple-antenna technology (multiple input multiple output, MIMO) transmission method.

The plurality of transmission paths converts the digital beamformed digital signal into an analog signal. To this end, each of the plurality of transmission paths may include an inverse fast Fourier transform (IFFT) calculation unit, a cyclic prefix (CP) insertion unit, a DAC, and an up-conversion unit. The CP insertion unit is for an orthogonal frequency division multiplexing (OFDM) method and may be omitted when other physical layer methods (eg, a filter bank multi-carrier: FBMC) are applied. That is, the plurality of transmission paths provide independent signal processing processes for a plurality of streams generated through digital beamforming. However, depending on the implementation, some elements of a plurality of transmission paths may be used in common.

The analog beamforming circuit performs beamforming on an analog signal. To this end, the digital beamforming circuit multiplexes the analog signal by the beamforming weight value. Beamformed weights are used to change the size and text of the signal. More specifically, the analog beamforming circuit may be configured in various ways according to a connection structure between the plurality of transmission paths and the antenna. For example, each of the plurality of transmission paths may be connected to one antenna array. In another example, a plurality of transmission paths may be coupled to one antenna array. In another example, the plurality of transmission paths may be adaptively coupled to one antenna array or may be coupled to two or more antenna arrays.

The methods according to the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the computer readable medium may be specially designed and configured for the present invention, or may be known and available to those skilled in the art of computer software.

Examples of computer-readable media may include hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions may include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as at least one software module to perform the operations of the present invention, and vice versa.

In addition, the above-described method or apparatus may be implemented by combining all or part of its configuration or function, or may be implemented separately.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the claims below. You will understand that it can be done.

100: job search platform providing server 200: job seeker terminal
201: first device 300: recruiting person in charge terminal
301: second device

Claims (9)

In the job search platform providing server that provides a matching service between job seekers and the company's hiring managers,
a member management unit that registers the job seeker as a member based on the job search information obtained from the job seeker terminal of the job seeker, and registers the job seeker as a member based on the job offer information obtained from the job search officer terminal of the job seeker;
a job search matching unit for matching the job seeker with the job seeker based on the job information and the job search information;
A metaverse space is generated based on the floor plan and floor height information of a corporate building obtained from the recruiter terminal, and a virtual object corresponding to an object in a real space corresponding to the inside of the company is generated, and the generated metaverse space is generated. and a metaverse service providing unit that outputs the virtual object to a first device that is a metaverse device of the job seeker and a second device that is a metaverse device of the job seeker.
an object identification unit that identifies the object in the real space corresponding to the inside of the enterprise, determines the type of the object, and provides information on the determined type of the object to the metaverse service provider;
Transmitting the question image obtained from the second device to the first device, obtaining the job seeker's answer voice signal based on the audio system mounted on the first device, and applying the obtained answer voice signal to the second device an interview process unit that outputs through a speaker mounted on the device; and
and a job search interest determination unit configured to determine the job search interest of the job seeker in the company based on a movement corresponding to the job seeker's avatar in the metaverse space,
The job search interest determination unit,
tracking the path traveled by the job seeker's avatar within the generated metaverse space,
Based on the individual spaces in which the job seeker's avatar moved within the metaverse space, the distance the job seeker's avatar moved in each of the individual spaces, and the time the job seeker's avatar stayed in each of the individual spaces, the Determining the job seeker's interest in job search for the above company;
The job search matching unit,
When the determined level of interest in the job search is equal to or greater than a preset reference level of interest, a recommended identifier is included in the job seeker information of the job seeker, the job seeker is listed in the company's recommended job seeker list, and the job seeker is listed in the job seeker terminal. Provides a list of recommended job seekers,
The metaverse service providing unit,
Determine the use of space for each individual space of the metaverse space based on the information about the use of each space inside the company obtained from the recruiting person in charge terminal,
Determining the type of department for each office based on the information about the type of department for each office obtained from the recruiting person in charge terminal,
tracking the movement path of the job seeker in the metaverse space,
When the job seeker enters a specific individual space, information on a departmental environment of a department corresponding to the specific individual space is provided to the job seeker terminal, and the information about the departmental environment includes, including information on hours and average working hours;
Outputs a work delivery voice signal including the work contents of the department through the speaker of the first device,
Obtaining a business acceptance signal corresponding to the business delivery voice signal from the first device,
When the job approval signal is obtained, the job search platform providing server provides a job list including the job description of the department to the job seeker terminal. In claim 1,
The metaverse service providing unit,
Obtaining an input signal indicating the current location of the hiring manager from the hiring manager terminal,
Obtaining information about the current location of the hiring manager through a global positioning system (GPS) function mounted on the second device,
obtaining direction information of the hiring manager from the second device, and positioning the current location of the avatar corresponding to the hiring manager in the metaverse space based on the direction information;
generating real-time spatial information based on real-time distance data acquired from a distance detection sensor mounted on the second device and real-time image data acquired from an image sensor mounted on the second device;
Comparing the generated real-time spatial information with the metaverse space, maintaining an overlapping part between the real-time spatial information and the metaverse space, and transforming the metaverse space based on the real-time spatial information for a different part A server that provides a job search platform. In claim 2,
The object identification unit,
Identifies an object based on point coordinates of distance data obtained from the distance sensor and pixel values of image data obtained from the image sensor,
Obtaining point cloud information corresponding to an object within a sensing radius of the distance sensor through the 360-degree rotatable distance sensor and the image sensor,
The point cloud information is mapped to correspond to the azimuth of the sensing radius of the distance sensor, and the point cloud information includes distance information from the distance sensor to the object, a job search platform providing server. delete delete A method of providing a matching service between a job seeker and a company's hiring manager, the method comprising:
registering the job seeker as a member based on the job search information obtained from the job seeker terminal of the job seeker, and registering the job seeker as a member based on the job search information obtained from the job search officer terminal of the job seeker;
matching the job seeker with the job seeker based on the job search information and the job search information;
generating a metaverse space based on the floor plan and floor height information of the corporate building obtained from the recruiter terminal;
generating a virtual object corresponding to an object in a real space corresponding to the inside of the enterprise;
outputting the generated metaverse space and the virtual object to a first device that is a metaverse device of the job seeker and a second device that is a metaverse device of the job seeker;
determining the type of the object by identifying the object in a real space corresponding to the inside of the enterprise;
transmitting the question image obtained from the second device to the first device;
obtaining an answer voice signal of the job seeker based on the audio system mounted on the first device;
outputting the obtained answer voice signal through a speaker mounted in the second device;
tracking a path traveled by the job seeker's avatar within the generated metaverse space;
Based on the individual spaces in which the job seeker's avatar moved within the metaverse space, the distance the job seeker's avatar moved in each of the individual spaces, and the time the job seeker's avatar stayed in each of the individual spaces, the determining the job seeker's interest in job search for the company;
When the determined level of interest in the job search is equal to or greater than a preset reference level of interest, a recommended identifier is included in the job seeker information of the job seeker, the job seeker is listed in the company's recommended job seeker list, and the job seeker is listed in the job seeker terminal. providing a list of recommended job seekers;
determining the use of the space for each individual space of the metaverse space based on the information on the use of each space inside the company obtained from the recruiter terminal;
determining the type of the department for each office based on the information on the type of the department for each office obtained from the recruiting person in charge terminal;
tracking the movement path of the job seeker in the metaverse space;
When the job seeker enters the specific individual space, providing information on the department environment of the department corresponding to the specific individual space to the job seeker terminal;
outputting a work delivery voice signal including the work contents of the department through a speaker of the first device;
obtaining a business acceptance signal corresponding to the business delivery voice signal from the first device; and
and providing a work list including work contents of the department to the job seeker terminal when the work acceptance signal is obtained, and the information about the department environment includes an average attendance time, average leave time, and average of the department. A method comprising information regarding working hours. A non-transitory recording medium in which a program for executing the method according to claim 6 is recorded and readable by a computer. A computer program recorded in a non-transitory recording medium to execute the method according to claim 6 in the job search platform providing server. As a job search platform providing system based on metaverse service,
job seeker terminal;
a first device that is the metaverse device of the job seeker;
Recruitment officer terminal of the company's recruitment officer;
a second device that is the metaverse device of the recruiter; and
and a job search platform providing server that is interlocked with the job seeker terminal, the job search manager terminal, the first device and the second device, and provides a matching service between the job seeker and the job search manager of the company,
The job search platform providing server,
a member management unit that registers the job seeker as a member based on the job search information obtained from the job seeker terminal, and registers the job seeker as a member based on the job search information obtained from the job seeker terminal;
a job search matching unit that matches the job seeker with the job search manager based on the job information and the job search information;
A metaverse space is generated based on the floor plan and floor height information of a corporate building obtained from the recruiter terminal, and a virtual object corresponding to an object in a real space corresponding to the inside of the company is generated, and the generated metaverse space is generated. and a metaverse service providing unit that outputs the virtual object to a first device that is a metaverse device of the job seeker and a second device that is a metaverse device of the job seeker.
an object identification unit that identifies the object in the real space corresponding to the inside of the enterprise, determines the type of the object, and provides information on the determined type of the object to the metaverse service provider;
Transmitting the question image obtained from the second device to the first device, obtaining the job seeker's answer voice signal based on the audio system mounted on the first device, and applying the obtained answer voice signal to the second device an interview process unit that outputs through a speaker mounted on the device; and
and a job search interest determination unit configured to determine the job search interest of the job seeker in the company based on a movement corresponding to the job seeker's avatar in the metaverse space,
The job search interest determination unit,
tracking the path traveled by the job seeker's avatar within the generated metaverse space,
Based on the individual spaces in which the job seeker's avatar moved within the metaverse space, the distance the job seeker's avatar moved in each of the individual spaces, and the time the job seeker's avatar stayed in each of the individual spaces, the Determining the job seeker's interest in job search for the above company;
The job search matching unit,
When the determined level of interest in the job search is equal to or greater than a preset reference level of interest, a recommended identifier is included in the job seeker information of the job seeker, the job seeker is listed in the company's recommended job seeker list, and the job seeker is listed in the job seeker terminal. Provides a list of recommended job seekers,
The metaverse service providing unit,
Determine the use of space for each individual space of the metaverse space based on the information about the use of each space inside the company obtained from the recruiting person in charge terminal,
Determining the type of department for each office based on the information about the type of department for each office obtained from the recruiting person in charge terminal,
Tracks the movement path of the job seeker within the metaverse space, and when the job seeker enters a specific individual space, information on the department environment of the department corresponding to the specific individual space is provided to the job seeker terminal, and the department The information about the environment includes information about the average working time, average leaving time, and average working time of the department,
Outputs a work delivery voice signal including the work contents of the department through the speaker of the first device,
Obtaining a business approval signal corresponding to the business delivery voice signal from the first device,
When the job approval signal is obtained, the job search platform providing system for providing a job list including the job description of the department to the job seeker terminal.

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