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    • 专利摘要:
    System for the integral control of passengers and luggage. An integral system comprising a central computer platform (11) in a network that centralizes information related to the control of passengers and luggage, to which they connect: - a control equipment (12) for passengers and luggage where a parameter of hand luggage (21) that a classifier uses to determine a category of hand luggage (21) is measured, which is compared with a condition defined by a company of transport; - a payment point (13) in which the passenger, if the previous comparison indicates a pending payment, has means to make the pending payment; y - an access management subsystem (14) that enables/disables access to areas defined by the transport company based on the previous comparison and if the passenger has made, in the case previously indicated, the pending payment in the point of payment (13). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2562733A1
    申请号:ES201531600
    申请日:2015-11-06
    公开日:2016-03-07
    发明作者:Rafael CASTRO MAÍLLO
    申请人:Sist Tecnicos Y Montajes S L;Sistemas Tecnicos Y Montajes Sl;
    IPC主号:
    专利说明:

    System for the integral control of passengers and luggage
    OBJECT OF THE INVENTION
    The present invention is framed, in general, within the field of passenger transport and, more particularly, in the sector of devices and systems supporting the process of passenger boarding and baggage control at airports.
    More particularly, the present invention relates to a system that integrates the entire process of passenger management and control of their luggage in an airport scenario.
    BACKGROUND OF THE INVENTION
    The aeronautical sector is characterized by being a highly competitive sector where each of the airlines must fight to earn a place in the market. Thus, in order to increase profitability, the greatest efforts are focused on optimizing the operational processes over which companies have control and making proper use of the airport infrastructure in order to achieve the desired efficiency and effectiveness. And so, most of them focus on reducing the time of the aircraft on the ground, (`` turnaroundquot; in aeronautical jargon) since the airlines do not generate any income while they are on the ground and, the longer they are stationed, more airport fees must face.
    The turn-around time of an aircraft, understood as the time that includes the arrival of the aircraft on the platform and the placement of the chocks until their disposal and the departure of the aircraft, is approximately 30-60 minutes and the crucial component of this process is passenger boarding. In previous studies, it is estimated that the decrease in cost associated with the reduction of the boarding process for an active aircraft is $ 30 / minute. The one-minute decrease in the boarding process for each flight means an annual cost reduction of $ 5,475,000 for an airline that operates 500 flights a day. Therefore, one of the main objectives of an airline is to reduce the total possible time of · tum-around 'as much as possible. And one of the elements of that
    Most important total time, both for customer satisfaction and for financial reasons of the airline, is the duration of the passenger boarding process.
    Therefore, speed, precision and efficiency are crucial to minimize the total time of the aircraft on the ground (turn-around). And as mentioned above, passenger boarding is one of the critical activities within the turn-around process of an aircraft, since boarding cannot begin until other activities have been completed. The total time of the boarding process depends on factors such as the size of the plane, the airport infrastructure, the ground assistance services, the number of personnel, hand luggage or passenger behavior. Some are controllable and others uncontrollable.
    In addition, the control of your hand luggage is involved in the passenger boarding process. There are equipment such as the one described in ES2461940 that control both the weight and dimensions of hand luggage by comparing those properties automatically with the weight limits and dimensions established by each airline. However, experimentation in real airport scenarios has resulted in an advanced or strict dimensional or weight control not practical 1, since the heterogeneity of both passenger behavior and of shapes, aspects, densities and deformations of luggage contemplate makes such precise control deliver unhelpful results.
    The objective technical problem that arises is therefore to provide a team with capacity for the integration of the means and functions that allow the management of the boarding process of passengers (`` boarding '', in English) and the efficient control of their luggage , to automatically execute all the tasks that are currently performed manually by the aircraft ground assistance companies (quot; handlingquot ;, in English).
    DESCRIPTION OF THE INVENTION
    The present invention serves to solve the problem mentioned above, solving the problems presented by the solutions mentioned in the state of the art, by means of an automated and computerized system that facilitates the transport companies (in particular, the airlines) the fulfillment of related standards
    P20153 1600 
    with hand luggage, checking that the passenger meets the requirements on it, while managing a safer and faster passenger boarding.
    The integral control system of the passenger boarding process with the hand luggage that can optionally be carried here proposed is configured so that it allows a series of functions, with a flexible configuration to adapt it to the specific requirements of each company that offers the passenger transport service, which runs automatically in parallel to optimize / minimize the boarding time per passenger, guaranteeing, in addition, the fulfillment by the passengers of the requirements established in relation to hand luggage. The system also integrates in the process the communication with external systems both of information with the companies and even of the collection of the rates established in the policies of the companies for the collection of services. Additionally, the system offers the option of also keeping the passenger informed at all times, for example through a visual interface and issuing at the end of the process a ticket or proof of the validity of their luggage and, if necessary for boarding , of the payment made by the passenger at the same point at which this control process is carried out.
    The fundamental process of this passenger and carry-on baggage control system resides in the particularities and singularities of the analysis of hand luggage, which go beyond the mere dimensional or weight control that an electronic meter such as those existing in prior art.
    In the proposed system, a centralized control of both the passenger and the characteristics of the hand luggage is carried out, which allows defining, for each passenger registration, a series of conditions that enable access to different areas of the airport that the airline or the airport entity Want to enable or control. This means, for example, that if the passenger can only embark in the event that he has paid the franchise that corresponds to the control of his hand luggage, at the point of payment enabled for it in this comprehensive automatic control system, Passenger access to the aircraft at the boarding gate is not allowed / enabled until the system has validated its franchise payment and only at the time when such payment is consolidated is possible for the passenger, using their boarding pass , access the boarding areas or the aircraft.
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    The system described thus makes decisions based on: -the characteristics of hand luggage that allow it to be classified into one or another category of luggage, and -the conditions that each transport company imposes on that luggage to allow boarding.
    While state-of-the-art solutions are limited to baggage control based solely on measuring luggage weight and size. The present invention classifies hand luggage according to N levels or categories based on a series of characteristics, which are not limited only to dimensions and weight, but more factors can be analyzed (for example, even color: quot; They cannot climb red suitcases;). Moreover, weight is one of the parameters that can be controlled but it is not essential; in fact, the luggage weight parameter can only be a trigger for the measurement but the weight value is not used unless the airline wants to take it into account, and, in that case, that value is handled elsewhere of the workflow so as not to influence the boarding time per passenger.
    Additionally, the system implements a decision tree to classify each category of luggage that is generalized, because it is not only about examining whether a baggage exceeds dimensions ° measures to give a yes / no answer to enable boarding. The present invention, in addition to analyzing whether a certain dimension is exceeded, analyzes the profile of that dimension, to debug false negatives, and depending on the profile that it meets, different decisions can be made. This is achieved through a Classifier.
    In the context of the invention, a Classifier is a set of routines that allow the discrimination of a given object from among certain categories (with a certain percentage of effectiveness), based on a learning or training, determined by a series of sets of objects of which the category to which they correspond is known.
    In an example of embodiment of the invention, the system uses a Bayesian Classifier that allows with an effectiveness close to 95% that, for example, by means of a photograph of the luggage, it is known if there is a suitcase, a backpack, a bag of travel, etc., being able to make different decisions or different limits or characteristics depending on the category or type of luggage it is.
    One aspect of the invention relates to a passenger and luggage control system, which comprises the following means:
    at least one passenger and luggage control team,
    one or more payment points for passengers,
    5 a management subsystem of one or more accesses that enables / disables thePassenger access to one or more areas defined by the company oftransport of passengers and luggage (for example, boarding areas of aairport)
    and a central computer platform networked to the access management subsystem, payment points and passenger and luggage control equipment.
    In the proposed system, each control equipment, located at a control point accessed by the passenger with their hand luggage (if carried), includes a room to place and analyze that hand luggage, for which the room has of at least one sensor to capture at least one parameter of hand luggage that is used in determining a category of hand luggage. A classifier, which goes into the configurable software (processing means) of the control equipment, is the one that determines the category of hand luggage, to then be compared with one or more defined conditions
    20 previously by the passenger and luggage transport company.
    Based on the result of that comparison and, if that result indicates a pending payment, once the passenger makes the pending payment at any of the payment points, the access management subsystem is activated to enable or not enable passenger access to
    25 the corresponding zone (s).
    The central computer platform, which centralizes information related to the control of passengers and luggage, is the one that informs which access zone should be enabled for that passenger. In a possible preferred embodiment, this central computing platform 30 knows such data because it is networked to a boarding management system (DeS) of an airline. And to accelerate the process of information management, including that received from the control team, payment points and the access management subsystem, in a preferred embodiment, the information is uploaded to the central computing platform through intermediate repositories (quot; batchquot ;, in English) using a plurality of asynchronous work threads opened by each of the equipment
    control.
    The main advantages of the present invention are: It provides a comprehensive system that makes the boarding process more efficient, which results in a faster process and, therefore, considerable savings for airlines. It allows to effectively control a wide spectrum of hand packages The system is adaptable and configurable for installation and operation both in boarding areas and in common areas of an airport. The system can thus be provided with a double interface depending on whether it is going to be an autonomous device that is simply used (in quot; billing mode) to classify the luggage of passengers (unattended luggage), without any additional functionality; or, if it is going to be used by airline personnel to proceed with boarding and, in this case, the interface shows detailed information of each passenger and their carry-on luggage, similar to what the DeS do. The system for the integral management of the passenger and baggage control process can be installed at the boarding gates of the airports in order to automatically perform all the procedures that, in the state of the prior art, the assistance personnel perform (quot ; handlingquot ;, in English) of the airlines in a manual and dispersed way at the moment in which the passengers get ready to take the plane after passing the security check (boarding pass analysis, identity check, analysis of the transported luggage, automatic generation of identification tags for the hand equipment not suitable for boarding the passenger, taking the passenger's temperature, photographing the luggage, etc). And all these functions are integrated into the same system. In particular, the baggage control process set forth herein is based on the verification of a series of characteristics determined for each category of hand luggage, which can be adapted or modified by and for each airline. The dimensional control is not exact or precise, but is modifiable and adaptable based on a series of filters, routines and decisions, which make it possible to reach a practical and useful response for the airline based on the characteristics of each category of hand luggage that the airline wanted to decide to implement. These filters, routines and decisions are aimed at contemplating the multiple and heterogeneous possibilities that arise when verifying a hand luggage in a real scenario, which goes beyond mere
    strict dimensional control. The system allows to integrate through the use of NFC RFID technology and Beacons solutions to facilitate the passenger experience in the terminals and in the
    5 boarding, for example: a reader is placed at the entrance of the airport, by thepassenger reception point, so that passengers when approaching canUpload your travel information to your ID (smartphone, braceletidentification with RFID tag, etc). From there, as they moveby the airport, the passenger can receive offers on their mobile discounts at
    10 duty free stores, coffee shops and other proposals related to the application scenario.
    BRIEF DESCRIPTION OF THE FIGURES
    A series of drawings that help to better understand the invention and that expressly relate to an embodiment of said invention which is presented as a non-limiting example thereof is described very briefly below.
    FIGURE 1.- Shows a block diagram of the system architecture for the integral control of passengers and luggage, according to a preferred embodiment of the invention.
    FIGURE 2.- Shows a schematic representation of a cabin for the hand luggage of the baggage control equipment, according to a possible embodiment of the invention.
    FIGURE 3.- Shows the base of the passenger compartment for hand luggage tilted in one direction, according to a possible embodiment of the invention.
    FIGURE 4.- Shows the base of the passenger compartment for hand luggage tilted in another direction, according to another possible embodiment of the invention.
    FIGURE 5.- Shows a diagram of the operation of a cabin sensor for hand luggage, according to a possible embodiment of the invention.
    FIGURE 6.- Shows a possible location of a sensor in the passenger compartment for hand luggage, according to an embodiment of the invention.
    FIGURE 7.- Shows another possible location of a sensor in the passenger compartment for luggage
    hand, according to another embodiment of the invention.
    FIGURE 8.- Shows another location more than one sensor in the cabin for the luggage of
    hand, according to another embodiment of the invention.
    FIGURE 9.- Shows a schematic representation of three examples of comparison of hand luggage with a dimensional condition, according to a possible embodiment of the invention.
    FIGURE 10.- Shows a possible scenario in which the system for the integral control of passengers and luggage is applied, according to an embodiment of the invention.
    FIGURE 11.- Shows a schematic representation of the baggage control equipment with the cabin for hand luggage and identity cards and passenger boarding pass, according to a possible embodiment of the invention.
    FIGURE 12.- Shows a diagram of the handling of asynchronous information for the integral control of passengers and luggage, according to an embodiment of the invention.
    PREFERRED EMBODIMENT OF THE INVENTION
    A diagram of the architecture of the integral passenger and luggage control system is shown in Figure 1, which comprises four differentiated but communicated blocks:
    1. A central computer platform 11 for the control and management of all the information involved in the process of enabling passenger boarding, including their hand luggage. In an example application scenario, this
    Platform 11 is connected to the computer platform of the airline or DCS (Departure Control System, in English).
    ii. A control device 12 for passengers and hand luggage comprising
    a passenger compartment 20 where hand luggage 21 is placed and controlled, a point of
    Passenger reception and a boarding pass verification point
    where, meanwhile, the passenger and his card are analyzed respectively
    boarding
    iii. A payment point 13 that has means for economic transactions
    with which it allows the passenger, once he or his hand luggage is checked in
    he teamfromcontrol12 powersatisfy hepaymentfromthefranchises
    corresponding and, eventually, gain access to the areas that the airline
    consider based on your situation (usually the aircraft, but also areas
    VIP, etc.)
    iv. An access management subsystem 14, which manages access to zones
    commented above: doorsfromshipmentintheaircraft,roomsfrom
    Waiting, VIP areas, common areas of the airport, etc. Thus, the subsystem of
    access management 14 may be connected to access mechanisms to areas
    such as lathes, automatic doors, etc.
    In general terms, the comprehensive passenger and hand luggage management system
    performs multiple functions among which are: At the checkpoint of the boarding pass, analyze the passenger's ticket or boarding pass, for example, through a boarding pass reader that has the control team 12, collating it with the supporting documents of the personality. For the general situation in which the boarding pass is scanned, a quantity of hand luggage allowed can be established depending on whether the passenger travels in tourist or business, for example. In passenger compartment 20, analyze and photograph the hand luggage 21 of each passenger by means of image verification contrasting it with the policies of each airline. At the point of reception of the passenger, the passenger can also be photographed in those countries where the regulations allow, take the passenger's temperature, identify the passenger, and generate and issue for the passenger the corresponding surcharges in those elements that exceed the limits What does the company have, etc. The identification of the passenger can be by facial recognition: a camera to read the ID / passport information, and use artificial vision to compare the photo of the ID with the face of the passenger. If there is no match, an alert pops up so that the passenger can be checked by the assistance or handling staff.
    At point of payment 13, the passenger liquidates, with the forms of payment enabled, which is due for breaching the conditions of the ticket. If a passenger is detected within the frequent passenger program or who is registered on the platform, the automatic charge is made at payment point 13, so that the passenger must only accept the charge. This avoids stopping the boarding line. Additionally, at payment point 13 the system includes a
    or more printers, luggage label printer once paid, and proof of payment printer. It is possible to generate the necessary documentation that the airplane commander has to sign prior to the departure of the plane, what is called a cargo manifest, generate alarms to notify when the cabin of the plane is full, and issue identification tags of hand luggage when the airline staff decides, etc. In this case, the system generates some labels for the transport in the baggage hold, and the payment to the passenger by credit card or other type of payment system. The label is printed at the payment point 13 and not on the control equipment 12. There is a possibility to print the label for the warehouse even if the category of hand luggage is good, for whatever reason, for example, because Only a single hand bag is allowed and the passenger has two, although the two comply, one of the packages must be labeled. There is also the possibility of printing a CABIN APPROVED label of `` Approved by Cabinaquot ;, instead of the label for cellar, for luggage that are in common areas, said label containing a date and flight record to be distinguished. Improving cabin space measurement technology, especially in the general case that the airline wants to have a small hand luggage category; that is placed under the front seat, the system allows that, exceeding the limit of space in the cabin, the luggage does not stop the boarding, but in that case labels are printed to all the luggage regardless of the category In the equipment of control 12, a Classifier simply classifies the luggage and, based on that classification, the system decides what to do with the passenger: whether to pass it to any of the boarding areas through the access management subsystem 14, or, if sending it to the payment point 13 and then to your boarding area through the access management subsystem 14. The boarding pass analysis allows the system to tell the passenger the queue in which to wait depending on the boarding area. If the architecture of the airport allows it, different areas with seats can be enabled for the orderly waiting of passengers. Access to each of them is controlled by the boarding pass (even if they leave to go to the bathroom; to re-enter, the boarding pass is scanned and
    5 if it has already passed through the control, the lathe is opened, if not, it is not opened). At a point of receipt of the luggage to go down to the warehouse, equivalent to the luggage delivery counters (`` auto drop-off ', in English), the properly labeled hand luggage is deposited so that the company's assistance staff Aerial I lowered it to the hold of the aircraft.
    10 The fundamental process of this passenger and carry-on baggage control system resides in the particularities and singularities of the analysis of hand luggage in the control equipment 12, which go beyond the mere strict dimensional or weight control that may involve A conventional electronic meter. This process describes
    15 continuation.
    To begin with, Figure 2 shows the passenger compartment 20 in which the hand luggage 21 is placed and which has certain peculiarities. The first is that the cabin 20 has a base 22 inclined in one or two directions, as for example shown in Figures 3 and 4, allowing the luggage to be positioned with respect to one or two fixed edges respectively. This facilitates the determination of control zones. Said base 22 is in turn supported on a balance or load cell, which has a double use: on the one hand, act as a load cell and detect when the weight of the hand luggage is stable to be able to launch the classification routines of the luggage, and on the other, to capture the weight of the same in case any of the conditions of the categories defined by the airline requires its use (total weight, weight / volume ratio, etc). In the cabin 20, one or more sensors 23 are available for baggage recognition 21. Normally the sensors 23 used are several cameras: one of them placed in a fixed and particular position that allows the most complete perspective of the placed luggage and the
    30 remaining placed in positions that allow to capture images in which the dimension to be controlled is clearly visible.
    For example, as shown in Figure 5, assuming that the address of a sensor 23 is given by a vector 51, Vector_Sensor (for example, in a webcam the vector 51 35 indicates where the webcam is pointing, perpendicular to its objective ), sensor placement
    23 is such that vector 51 is contained in a plane 53 that is approximately ± 10% of the limit plane of dimension 52 that limits the maximum dimension to be controlled. In addition, these cameras can be repositioned according to the particular needs or conditions of each dimension.
    On the other hand, and since the control involves an analysis of visual information (images) captured by different sensors 23 (cameras), the conditions in which said images are captured must be homogeneous. Therefore, the cabin 20 where the hand luggage 21 is placed is conveniently illuminated such that the image capture conditions are always as homogeneous as possible, regardless of the light conditions of the place where the control equipment is placed 12 (common areas, bright terminals, shadows caused by edges or by the passenger, etc.).
    In Figures 6 and 7 the illumination 24 of the cabin 20 and the possible location of two other cameras, the sensors 23 'and 23' ', which are placed in places of the cabin 20 are shown, which, together with the sensor 23 shown in the Figure 5, allow to control the three dimensions of the hand luggage 21. In the examples shown, the sensor 23 controls the thickness dimension, the sensor 23 'controls the height, the sensor 23quot; Control the width.
    In Figure 8, it is shown that the cabin 20 has an additional camera 25 that takes the image of the hand luggage 21 for the classifier that determines a category of hand luggage 21.
    In a possible embodiment of the invention, Microsoft Kinect type 3D cameras can be used to generate a three-dimensional reconstruction of the hand luggage 21, so that it has the shape that it has, the information of the generated 3D model can be analyzed and offer a result to this classification combining both technologies, on the one hand classifiers, preferably Bayesian, and on the other hand the flexibility of having hand luggage 21 rebuilt in 3D. Thus, it can even be simulated if the package fits in the closet of the aircraft intended for it, or under the seat, etc., showing the passenger such information that is accurate. Even with 3D reconstruction you can take out the equivalent rectangular volume that would occupy the same volume, to simulate that you can put it in the basket, and play with the densities (weight volume ratio) to make decisions.
    The control team 12 performs tasks that involve the control of a set of conditions that make up a category of hand luggage 21. Therefore, the control team 12 is checking the specific conditions corresponding to said airline one by one and,
    if applicable, the type of hand luggage 21 introduced. These conditions can be dimensional, weight, weight / volume, color, shape, type of luggage, etc.
    As a condition or group of conditions has been verified, it is analyzed whether this group constitutes a specific category of hand luggage 21 (and that it cannot be covered by other categories).
    If it is concluded that said set of conditions, combined with each other, give rise to a specific category, the categorization process is terminated. If not, conditions are still being analyzed and whether they constitute a specific category, until such category is determined for hand luggage 21 located in passenger compartment 20.
    The control process carried out by the control equipment 12 begins by capturing an image from at least one of the sensors 23 (perspective camera). Using this image a sorting routine is launched, to determine the type of hand luggage 21 placed in the passenger compartment 20, if necessary based on the set of categories defined by the airline (there will be airlines that do not want to discriminate characteristics by type of luggage ). This sorting routine offers as a result the type of hand luggage 21 located in the cabin 20, for example if it is a small suitcase with wheels (Trolley), a Handbag type laptop sleeve, travel bag, backpack, etc. ., using as input a set of parameters from system learning. This sorting routine works by launching repetitive sorters that work by discriminating types of hand luggage in pairs. That is, first discriminates, for example, trolleys from the rest; then backpacks of the rest (from what is removed by the previous category), and so on. The order in which the classifiers are launched in pairs is based on what is the optimal order that maximizes the percentage of effectiveness of the classifier (that is, for example, knowing that hand luggage 21 located in passenger compartment 20 is a backpack with 98% effectiveness). In addition, an "intelligent classification" can be implemented; so that when offering the results of the luggage control, the passenger is shown a button with the result, and a series of buttons to correct the decision. Based on this you can feed the learning of
    P20153 1600
    classifiers progressively based on all the decisions that the classifier has made and which ones have been correct or erroneous.
    Once the type of hand luggage 21 is known, if applicable, each of the conditions specified by the airline is analyzed. The first conditions to analyze are the dimensional ones, because based on them you can decide if it is necessary to verify others (for example, only control the weight if the luggage is greater than certain dimensions).
    The sensor means used in the cabin 20 to measure the dimensions of the hand luggage 21 can be various and of different types, such as infrared barriers, image sensors such as cameras, ultrasonic sensors, etc.
    Figure 9 shows examples of the case in which the condition to be analyzed is dimensional, in which case it proceeds as described below. In the first two examples, represented in the left and central column of Figure 9, the condition (of height) is met, while in the third example, illustrated in the last column to the right of Figure 9, n is met such condition. An image of the sensor 23 that corresponds to the dimension to be controlled for that condition is captured. From this capture an image is obtained that allows controlling said dimension as explained above. The underlying idea of the dimensional control process is to analyze a certain area of the image, called the control area 60, to assess whether the hand luggage 21 located in the cabin 20 invades said control area 60, and in that case, in what way It invades area 60. By analyzing how these areas are invaded or crossed, as shown in Figure 6, it can be determined whether hand luggage 21 meets the dimensional condition in that particular direction. The analysis is not based on accuracy, but on the determination of under which situations or conditions such hand luggage 21 is considered as belonging to a particular category in a real situation (quot; real world scenarioquot;) of the airline's operation , discriminating for example handles, belts, wheels, zippers, various shapes, etc. The control area 60 is a region of the photograph that encompasses the area in which the hand luggage 21 is exceeding the theoretical maximum dimensions. To determine whether or not it exceeds, within the control area 60 one or more critical lines 61 are defined, which are the lines that define the maximum dimensions to be considered (with additional tolerances with respect to the maximum theoretical dimensions of the airline , for example). The image 62, 62 ', 62quot; captured in each case, in Figure 6, of the area of

    control 60, is analyzed along said critical lines 61 to make a decision on the dimensional condition that is being tested.
    In the case discussed above, of implementing a three-dimensional model of hand luggage 21, in the baggage analysis process, instead of a control area in which a critical line is chosen, control volumes are used in those that analyze critical areas. The 3D camera allows you to reproduce the volume in 3D and it would only take a 3D volume (the equivalent of 2D photography) to analyze three control volumes with three critical planes.
    It should be said that each camera or sensor 23 is configured during the configuration process of the control equipment 12, in which the cm / pixel scale is defined for a given resolution, for example 640x480px of the captured image, that is, at what Pixel corresponds to each measurement in cm (if the resolution is changed the cameras must be reconfigured). In addition, at least one pixel reference is configured to be able to reconstruct the Control Area when taking each image, depending on the maximum dimensions of each airline. In this way, the pixels to be analyzed can be interpolated or extrapolated according to the dimensions in cm of each airline.
    Therefore, once the image to be analyzed for the control of a given dimension has been taken, the first step is to define the control area 60 based on the dimensional conditions of the airline in question to be controlled. Subsequently, a critical line 61 is defined which is the line within the control area that is at the distance of the maximum allowed dimension. A critical line 61 is defined for each dimension to be controlled using the same control area 60. At this point, the control area 60 is passed through two filters. The first is a line filter (Edge Detection) that outputs the lines that define the contours and the strokes of everything contained in the control area. The second is a grayscale filter, which transforms what is contained in the grayscale control area.
    Next, an analysis of the critical line 61 is made, extracting the cut-off points of the lines obtained from the first filter, analyzing their separation and the average color (coming from the gray scale filter) between the cut-off points with The critical line. Once the critical line 61 is analyzed, a value of the percentage of luggage that exceeds the critical line 60 is extracted. At this point, if a certain percentage of the luggage (enter a

    25 And 35%, adjustable parameter as part of the configuration of each equipment) exceeds the critical line 61, said luggage is not able to meet the condition of maximum dimension being analyzed. Subsequently, if the previous case occurs, a corrective filter is applied to the critical line 61. The intention of this filter is to discriminate which situations or breaches of said condition are due to elements that must be discriminated, such as handles, wheels , straps, protruding zippers, etc. This corrective filter is based on the analysis of a color distribution 63 of the critical line 61, so that, depending on the way in which the color or colors are distributed along the critical line 61, it is decided correct the condition of non-compliance with said maximum dimension by detecting that what exceeds said dimension is, for example, a protruding belt, or maintaining the breach of said condition. The analysis of said color distribution or distribution 63 can be performed by analyzing pixel-by-pixel color curves, or by using a classifier analogous to those mentioned above, which discriminates based on several types of color distribution accepted and not accepted.
    Optionally to the dimensional condition analyzed, the control equipment 12 can control more additional conditions specified by the transport company. For example, if the condition to be controlled is the weight, the weight of the luggage 21 is read directly from the balance located in the passenger compartment 20. If the condition to be controlled is, for example, the color of the luggage, the image captured by the sensor 23 is analyzed, so that, by analyzing the image by means of certain filters and routines, the average color can be extracted
    or predominant hand luggage.
    Subsequent to the decision of whether each condition is met, if the analyzed condition is not met and is exclusive, the luggage will be classified directly without continuing to control conditions. If it is not, the following condition is analyzed.
    An example of the application scenario of the invention is shown in Figure 10, with the steps that a passenger follows in the boarding process that automatically performs the comprehensive system described. The passenger first passes through a passenger control and access point 1, where the franchises or pending payments, the status or class of ticket, and the passenger's access to the different boarding areas are controlled, depending on the passenger's profile. 4, 5, 6, allowing or denying said access through controlled access barriers A, B, e, D, F, G and H, which may be placed for this purpose

    and that they are controlled by the access management subsystem 14. Said controlled access barriers A, B, e, or, F, G and H, allow or deny the passenger's passage simply by reading the boarding pass. In addition, you can allow through some of the barriers F, GYH, the departure of passengers who have already accessed any of the pre-boarding areas to common areas (bathrooms, for example) and their re-entry without having to pass again by the passenger control point 1.
    In Figure 11, the control equipment 12 that is arranged at the passenger control point 1 is shown, comprising a passenger compartment 20 with at least one sensor 23 for the analysis of the hand luggage 21 that the passenger places in the passenger compartment 20 , and a boarding pass scanner or reader 101 AND one or more passenger identity readers 102 that scan identification documents, such as ID, passport, etc., for passenger control. Additionally, at the passenger control point 1 a screen 103 is provided to assist the passenger and the user in the use of the system.
    In addition, the comprehensive passenger and baggage control system has, as shown in Figure 10, one or more payment points 2 for the passenger to meet the pending franchises or payments and a point of `` drop-off '' hand luggage storage to be billed 3. The system has as many boarding areas 4, 5, 6, as phases in which the airline or the airport manager wants to divide the ticket to board the aircraft. The pre-boarding areas are placed in such a way that, in the example case shown in Figure 10, passengers in boarding area 4 are the ones that board first (for example, passengers with priority boarding pass), those in the area 5 the second (last rows of the aircraft) and those of zone 6 the last (first rows of the aircraft), for example. The passage to the different boarding areas 4, 5, 6, is enabled through the remote opening doors 1, J and K.
    A specific passenger, who does not carry hand luggage or who carries a small hand luggage fulfilling the conditions of the airline, arrives at the passenger checkpoint
    1. If you carry hand luggage, place it in the cabin 20 that is at that checkpoint 1, and follow the instructions on the screen 83. If you do not carry hand luggage, only your identification is scanned (passenger identity, passport, boarding pass). In both cases, either without hand luggage, or with approved hand luggage for cabin access, the passenger control point 1 allows access to the pre-boarding area, showing on the screen the exact pre-boarding area that corresponds to said passenger , (for example,
    zone 4, 5 or 6), enabling access by barrier A and at the same time by the access barrier e, or or E corresponding to the pre-boarding area assigned 4, 5 or 6. If the passenger wanted to access an area of pre-boarding enabled for him, the barrier would deny him access.
    On the contrary, if another passenger arrives at the passenger control point 1, he places his hand luggage in the passenger compartment 20 of the passenger control point 1 and it is determined that he does not meet the conditions to be transported in the cabin (then it is considered as baggage to be checked in or `` Check-in Baggagequot ;, in English), the passenger receives the corresponding information on screen, both about the franchise that must be paid and information on how to proceed. You are told that you must go to one of the payment points 2 enabled, not being allowed access through the barrier A. Therefore, this passenger goes to payment points 2 to pay the corresponding franchise. Once said franchise has been paid, payment point 2 issues both the payment receipt and the label to be placed in the carry-on luggage to send it to the aircraft's warehouse, this information being sent through the central computer platform 11 of the system to the system airline computer for storage (controlled tag numbering). Once the passenger has tagged his hand luggage, he proceeds to deposit it in the drop-off zone; or baggage check-in 3. In addition, when paying, the system enables the passenger to access the different pre-boarding areas through barrier B, indicating once he has paid which area corresponds to him. Therefore, once the franchise has been paid and the hand luggage is deposited in the drop-off zone 3, the passenger accesses through the barrier B and the access barrier e, or E to the pre-boarding zone assigned 4, 5 or 6 that apply.
    However, it can also happen that the passenger carries a baggage that must be checked in, but this passenger has already paid the franchise payment and, therefore, must not pay at the point of payment 2 (it may be because the class or fare of the passenger has the invoice of the package included, or that the passenger has pre-authorized the charge in his credit card of hand luggage franchises). In this case, the passenger should only go to the payment point 2 to print the label to be placed in their carry-on luggage and deposit it in the area authorized for the baggage deposit to be billed 3. Once said label has been printed at the point of payment 2, access to the pre-boarding areas is enabled through barrier B.
    P20153 1600 
    Payment point 2 simply requests the passenger's boarding pass scan. Once scanned, check the central computer platform 11 of the system for the corresponding information, the payment of pending franchises, etc. The point of
    Payment 2 has all the means of payment that are considered appropriate, such as credit / debit card reader, cash payment (coins / bills), contactless payment (contactless, in English), etc., enabled. Once the passenger satisfies the payment of the corresponding franchise or franchises, payment point 2 sends, following a similar process of asynchronous shipment management, the update of the passenger's record in which it is indicated that the franchise has been paid and it is enabled for the desired accesses. In addition, said point of payment 2 may allow the passenger to pay for additional services that the airline offers and that are not included in the passenger's ticket, such as access to VIP areas, preferred boarding, etc. In this way, a passenger without pending baggage allowances can also go to one of the payment points 2 enabled and buy or pay, for example, access to the VIP area or preferred boarding.
    At the start of boarding, as shown in the example in Figure 10, boarding area 4 is the first to access the aircraft. Therefore, the access management subsystem 14 of the proposed integrated shipping management system first opens the remote opening door 1, which only allows passengers in said boarding area 4 to enter the boarding gate 7. Once the second boarding zone 5 is decided to board, the access management subsystem 14 remotely opens the access gate J, which allows passengers in zone 5 to enter the boarding gate 7. As the access gate I is still open, so passing through it is allowed. And so on, to allow the shipment to as many areas are enabled. Once the boarding of the passengers is finished, the access management subsystem 14 opens the door L to allow the handling personnel to remove all the hand luggage that must be checked and deposited in the drop-off zone 3 , without interference from passenger boarding, so the time it takes is minimized.
    On the other hand, before the system can begin to operate by applying to the integral control of the passenger and their hand luggage, the system must be configured by an operator or user to define the mode of operation of all equipment. The complete configuration process, described here in simplified form, is as follows:
    The first point of the system configuration process is to allow access to the system equipment by username and password. This user and password uniquely identify access with a specific airline and, if applicable, with a specific location (airport, boarding gate, etc.). In this way, the system loads, from the central platform 11 in network (online) with the airline's computer system (DCS), the information that corresponds to its operation, for example: list of flights of said airline from the airport in the one that is located, list of categories and characteristics of hand luggage to control for said airline, etc. One of the advantages of this process is the way in which the information on hand luggage that the airline wishes to control is managed. Specifically, each airline defines or can define a list of conditions or characteristics for each category of hand luggage that you wish to contemplate in the baggage control process. These characteristics or conditions can be: type or category of hand luggage, dimensional, dimensional with tolerances, margin of permissiveness in dimensions, color, weight, weight / size ratio, etc. In addition, it is decided whether each characteristic is exclusive to apply certain shipping conditions or can be combined with others to define the output of the process or the conditions to be applied. For each of the defined categories the airline defines an exit information or a series of boarding conditions, such as the printing of labels quot; Approved in Cabinaquot; (quot; Cabin Approved Tagquot;), label printing quot; Manoquot bag; (`` Bag Tag to Holdquot;) or checked baggage tag ('' Chen-In Buggagequot;), and the printing of the specific placement inside the cabin to be indicated to the passenger, payment of different franchises, etc., or A combination of them. In this way all possible cases are represented when analyzing all the heterogeneity of hand luggage, allowing the airline to adapt its conditions at each moment and for each given situation.
    In addition, it should be mentioned that global users of the system can be defined who are allowed access to a group of airlines or to all the airlines that are represented in the system. For example, it may be the case of an access of a group of airlines (alliances are very common to centralize costs, such as Star Alliance or Etihad group). In this case, all the information corresponding to said group of airlines is loaded.

    Subsequently, to begin the process, the flight to which the shipment to be made must be selected, from a list that has been previously loaded into the system; or it should be indicated that the equipment has been placed in a common area that does not correspond to any particular shipment (common areas, billing, security check, etc.). This casuistry determines or limits certain functionalities of the system during the process, so that it is effective and practical for passengers and airlines, in addition to allowing the passenger to change the airline for which the control of hand luggage is carried out, from a list of Airlines that have been loaded in the previous step. This selection therefore adapts the process of controlling the passenger and their luggage to the set of categories and specific characteristics of the selected airline.
    In addition, the system allows the previous configuration of certain functionalities of the process, such as the sounds or alarms in each case, options for printing luggage tags or `` Cabin Approved ~, boarding card scanning request, etc.
    The system configuration is stored in the central online control platform 11, so that the (means of processing the) equipment can be configured remotely if desired.
    It is worth mentioning the uniqueness of the process of uploading information in real time to the online control platform 11, to the databases, to the accommodation of the photographs and to the communication with the DCS of the airlines. The uniqueness of this process lies in the fact that, if shipments of information, photographs, records, etc. are made, in the same process of passenger and baggage control, if there is any communication problem or slow data traffic, The boarding process slows down too much. Therefore, in a possible embodiment of the invention, an asynchronous information upload procedure has been implemented, as shown in Figure 12. This process determines the types of information to be uploaded or sent (eg, records to the data bases). data, photographs, XML objects for DCS, etc.) and open an asynchronous work thread 111, 112, 113 for each of those types. In this way, several parallel processes of sending or uploading information are established, which are in continuous operation for the duration of the shipment or the use of the equipment, work as follows:

    Instead of the main control process 110 directly sending or uploading the information to which it corresponds, the information to be uploaded in a "batch" is housed; or intermediate local repository 121, 122, 123. For example, the images of luggage and / or passengers to be uploaded to the online control platform 11 are stored in an intermediate local repository 121 which is a local folder; passenger records and DeS records are also stored in respective intermediate local repositories 122 and 123. On the other hand, each of the asynchronous threads 111, 112, 113 is constantly consulting the contents of said intermediate repositories 121, 122, 123 ( each thread to which it corresponds), so that if there is information housed inside, proceed to send or upload 131, 132, 133, where it corresponds (database, ftp server, airline DeS, etc.) , following a FIFO structure that maintains the order in which the information was generated.
    Thus, at the start of the passenger control process 110, once the operating mode of the equipment has been defined as mentioned above, a series of asynchronous work threads 111, 112, 113 are opened to be able to upload the generated information Without slowing down the entire process. The passenger control process 110 allows, in a first instance, a double casuistry:
    A) If the passenger to be controlled does not travel with hand luggage, and in addition the team has the option to request the boarding pass to all passengers (the equipment placed in common areas has it deactivated), the access control consists simply in scanning the boarding pass and it will simply result in a boarding record of said passenger without hand luggage, which is sent or made available to the Boarding Management System (DeS) of the airline used. From this scanning of the boarding pass carried out by the reader 101, the centralized control platform 11 receives and analyzes the information contained in the card, and eventually generates the corresponding information to be sent where appropriate (for example, to the DeS and the own centralized control platform 11). In addition, if personal identification control is enabled, the passenger must scan their identification in reader 102 as well as be placed to proceed to take personal photography, for analysis and determination of the validity of the identification. If the identification gives a negative result, an audible warning is issued and the support of the airline staff is required. If the identification is correct, it is allowed to continue with the process,

    in which case the passenger registration enables access to it where applicable (for example, the aircraft).
    8) On the contrary, if the passenger travels with carry-on luggage, he must introduce the same in the cabin 20 of the control equipment 12. Once the control equipment 12 detects, by means of a load cell placed in the bottom or base 22 of the passenger compartment 20 in which the hand luggage 21 is placed, that the weight thereof has stabilized (means that it does not move or that the passenger is moving or touching it), the analysis of said hand luggage 21 This analysis checks and contrasts whether the characteristics and conditions that correspond to the type of hand luggage 21 entered are met. Once all the conditions and the type of hand luggage have been determined, the hand luggage 21 is classified in one of the categories that the airline has parameterized, showing the corresponding information to the passenger on the screen 23. At this time, if If the boarding pass request of all passengers was active, it is requested for scanning regardless of the category of hand luggage 21. If it was not, the boarding pass is requested only if the category of hand luggage 21 analyzed you need the information contained in it (for example, to print the check-in label for luggage, or in case you need franchise payment). Once the passenger information is scanned by means of his boarding pass, it is registered in the corresponding intermediate repository 122, 123 to be sent to the passenger register 132, to the DeS of the airline 133, etc. If the boarding pass scanning is not necessary, the passenger is informed that he can already proceed to the extraction of his hand luggage 21 (and to control another one of the same passenger, if he had one). Passenger identity verifications can be uploaded to the database by displaying the result of the verification, but to avoid uploading more than one verification and having duplicate records if the verification is to be repeated, the verifications are only uploaded upon withdrawal. the luggage.
    0
    In another possible embodiment, the order of steps, Enter Baggage -7 20 Scan Boarding Card, which has been described may be the reverse. First, the boarding pass is scanned and, once the passenger has been identified, one or several hand luggage 21 can be validated, always associated with the passenger who has just scanned the card.
    Subsequently and optionally, if in addition the control equipment had activated the printing of the corresponding labels (label `` Cabin approved bagquot ;, label '; Bag Tagquot; numbered, etc.), the routines necessary for said printing are started up . In particular, in the case of numbered Bag Tags, they must be printed following the standard LATA format, in addition to containing a consecutive numbering of each airline. Depending on how you work with each airline, the centralized control platform 11 proceeds to check with the airline's computer system the numbering to be printed, or an independent consecutive numbering is generated for each airline but internal to the centralized control system 11, etc. Either way, the corresponding label is printed, if applicable. It may be the case that, even with the category of hand luggage detected, the printing of a LATA billing label for the warehouse, it would not be made at the same point of control 1 of the passenger but, after payment of the franchise corresponding in the payment point 2 enabled for this, it is printed in said payment point 2 once said franchise is satisfied. Then, if the category of hand baggage detected corresponds to the payment of some type of franchise, tariff, penalty or amount, this information is shown on screen 23 together with the category of hand luggage, also indicating to the passenger how to proceed (for example, indicating that you should go to the payment points 2 enabled). If, in addition, the airline had some type of deferred payment process enabled
    or remote using the previously requested passenger credit card data (for example, during the ticket purchase process or the printing of the online boarding pass, or even within the frequent flyer program of the airline itself), an "ACCEPT CARGOquot" button is displayed; so that the passenger presses and explicitly accepts that charge. This point is important as a remote payment solution, since by legal imperative, in order for the airline to charge a card, prior express approval is required, even if it had the data of the card beforehand. Once the acceptance of the payment is consolidated if applicable and the withdrawal of the tag for the hand luggage if it had been printed, the passenger is indicated that he can already proceed to the withdrawal of his hand luggage 21, and to introduce another if it Behave several. Once the hand luggage 21 is removed, it is sent to the repository or intermediate repositories 121, 122, 123 of the corresponding shipment
    corresponding baggage control, as well as the images that may have been taken of the hand luggage (and the passenger, if applicable), modifications of the passenger's registration such as approval of the charge, approval of access to certain areas (or to the aircraft) ), etc.
    At this time, the control equipment 12 returns to the beginning of the passenger control process 110 to proceed with the next passenger.
    权利要求:
    Claims (8)
    [1]
    1. A system to control passengers and luggage characterized by comprising:
    a central computer platform (11) that centralizes information related to the control of passengers and luggage,
    at least one passenger and baggage control equipment (12) with processing means, located at a control point (1) accessible by at least one passenger, comprising a passenger compartment (20) for placing and analyzing at least
    a hand luggage (21), the passenger compartment (20) comprising at least one
    10 sensor (23, 23 ', 23' ', 25) to capture at least one parameter of hand luggage (21) that is used in determining a category of hand luggage (21), where the category of hand luggage (21 ) is determined by a classifier that runs in the processing means and is compared to a condition defined by a passenger transport company and
    15 luggage;
    at least one point of payment (2, 13) at which the passenger, if the comparison
    between the determined category of hand luggage (21) and the condition
    defined by the transport company indicates a pending payment, has
    means to make the pending payment; Y
    20 an access management subsystem (14) that enables or disables access to at least one area defined by the passenger and luggage transport company, based on the comparison between the determined category of hand luggage (21) AND the condition defined by the transport company and, if said comparison indicates a pending payment, based on the completion
    25 of the outstanding payment at the point of payment (2, 13); And where the central computer platform (11) is networked to the control equipment (12), to the payment point (2, 13) and to the access management subsystem (14).
    [2]
    2. The system according to claim 1, characterized in that the means of
    The processing of the control equipment (12) opens a plurality of asynchronous work threads (11, 112, 113) to send information relating to the control of passengers and luggage to the central computer platform (11).
    [3]
    3. The system according to any of the preceding claims,
    35 characterized in that the condition defined by the passenger and luggage transport company is selected from dimensional condition, weight, weight / volume ratio, color, shape and type of luggage.
    [4]
    4. The system according to any of the preceding claims,
    characterized in that the control equipment (12) also comprises a 5 boarding pass reader (101) and a passenger identity reader (102).
    [5]
    5. The system according to any of the preceding claims, characterized in that at least one sensor (23, 23 ', 23 ~, 25) of the cabin (20) is a chamber.
    [6]
    6. The system according to any of the preceding claims, characterized in that the cabin (20) has a base (22) inclined with respect to a horizontal plane and having a weight meter.
    The system according to any one of the claims
    above, characterized in that the control equipment (12) is configured to activate a printing of labels in the carry-on luggage (21) based on the determined category of the carry-on luggage (21), the printing of activated labels being carried out in the point of payment (2, 13).
    [8]
    8. The system according to any one of the preceding claims, characterized in that it also comprises a luggage storage point to be billed (3) to receive hand luggage (21) labeled for billing at the point of payment (2 , 13).
    [9]
    The system according to any one of the preceding claims, characterized in that the central computer platform (11) is networked to a shipment management system, DeS, of an airline.
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