METHOD AND SYSTEM FOR INFORMING, ORGANIZING, TRANSPORTING, BOARDING AND ACCOMMODATING PASSENGERS IN AIRCRAFT, EQUIPMENT AND RELATED COMPUTER PROGRAMS

Abstract

The present invention relates to a method characterized in that one or more passenger waves having a size corresponding to the number of passengers in the settling process, who may be standing at the same time in an aircraft aisle. The invention also relates to a system and equipment capable of performing a method according to the invention, in addition to corresponding computer programs.

Claims

1. A method for passenger information, organization, leading, boarding and settling in aircrafts, the method comprising: i. Selecting the aircraft (A) model and boarding scheme based on data from a data processing center; ii. Dividing a number of passengers (P), based on the data from the data processing center, in waves having a size corresponding to the number of passengers (P) in the settling process, who may be standing at the same time in an aircraft (A) aisle (C); iii. Dividing each wave, based on the previous step, in one or more passenger (P) groups and/or subgroups, the size of each of the one or more passenger (P) groups and/or subgroups being limited to a number of seats (S) in its appointed row; iv. Informing passengers (P), using information display equipment connected to the data processing center, on the passenger (P) attendance sequence for boarding, projecting the number of their rows and/or their respective seat (S) numbers and start boarding by issuing an instruction to proceed to the boarding gate; v. Submit passengers (P) to boarding control; vi. Leading, boarding and settling, based on the previous steps, a first group of a first wave; vii. Repeating steps iv and v; viii. Leading, boarding and settling, based on the previous steps, a second group of the first wave that will occupy, in counterflow boarding direction, a next row of seats (S) at a distance from the row of the previous group such that it allows simultaneous permanence, in a line, of all passengers (P) of the previous group in the aircraft (A) aisle (C); ix. Repeating step vii; x. Leading, boarding and settling, based on the previous steps, one or more next groups until all passengers (P) of a first wave are boarded; xi. Repeating step ix; and xii. Leading, boarding and settling, based on the previous steps, one or more next waves according to steps i to ix until all passengers (P) set for boarding are boarded.

2. The method according to claim 1, characterized in that the settling process is any intermediate situation of the passenger (P), between entry into the aircraft (A) and final seat occupation (S).

3. The method according to claim 1, characterized in that passengers (P) are automatically released following the forward pace of the last passenger (P) of the last group of a wave, that is, as the last passenger (P) of each wave settles.

4. The method according to claim 1, characterized in that confrontation is only possible between passengers (P) from subsequent waves.

5. A passenger information, organization, leading, boarding and settling system on aircrafts, characterized in that it performs the method according to claim 1.

6. A system according to claim 5, comprising a main unit including one or more data processing centers, one or more databases, one or more information presentation equipment (100) and additional equipment and devices, or suitable peripherals.

7. A system according to claim 5, characterized in that the information presentation equipment (100) is a virtual guide (120) that indicates the boarding sequence according to the method of claim 1, being disposed directly on the ground and/or projected on the ground by means of projectors (110) located above the passengers (P).

8. A system according to claim 7, characterized in that the number of projectors (110) above or under passengers (P) is such that shadows or regions with poor presentation are not formed.

9. A system according to claim 5, characterized in that the virtual guide (120) is a dynamic mat (120) formed by adjacent cloths (121, 122, 123, 124, 125, 126) following the movement of passengers (P) in an adaptive way, identifying, counting and sorting the number of people (P) on/in the virtual guide (120), detecting their movement and following the flow and speed of each passenger (P) as well as the group of passengers (P), updating the instructions of the boarding sequence in real time, according to the flow and speed monitored.

10. Equipment for passenger information, organization, leading, boarding and settling, characterized in that it is a visual signaling set formed by devices that project and/or emit and/or present images and lights and that emit visual and sound signals, being connected directly to the data processing center, in the form of a virtual guide (120) that performs the method of claim 1 as part of the system of claim 5.

11. A computer program, characterized in that it is set in a computer-readable medium for performing a method according to claim 1.

12. A computer program, characterized in that it is set in a computer-readable medium and capable of performing a method according to claim 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

Method

[0024] A method according to the invention is a method for passenger information, organization, leading, boarding and settling in collective transportation means.

[0025] The method aims at resource optimization through passenger boarding in sequential waves formed by groups of passengers.

[0026] Sequential waves, in the context of the invention, are sets of one or more groups of people with qualitative and quantitative characteristics determined according to the nature of the transportation means, that is, the number, grouping and physical arrangement of the seats available within the transportation means.

[0027] In addition to accounting for common factors in boarding procedures, parameterization of the waves by the method of the invention considers the space occupied by passengers of each wave in the aircraft's aisles, while they are still in the process of settling.

[0028] Settling process, in the context of the invention, should be understood as any intermediate passenger situation, from entry into the aircraft to final seat occupation. This includes, for example, situations comprising one or more passengers still standing and/or storing hand luggage and/or belongings and/or standing up again to allow passage for another passenger and/or any similar intermediate conditions.

[0029] Boarding by the method of the invention is preferably initiated by the last row of seats or the row of seats which is furthest from the access to the aircraft. This goes for front or rear boarding, as well as front and rear boarding and, finally, for boarding when there are more than two access doors, in which case necessary adaptations must be made.

[0030] That said, a first wave of passengers according to the invention will be that which is composed of one or more passenger groups and intended to start occupying seats from the row farthest from the aircraft entrance, considering the boarding counterflow and having a maximum number of passengers obviously limited to the number of seats in said last row.

[0031] In the context of the present invention, the concept “all seats” includes all seats sold and/or reserved that, in some way, can be occupied according to a passenger or boarding or occupancy list. However, the present method can be designed considering effectively all seats, regardless of the aircraft's occupancy rate, without harming boarding, since passengers will immediately notice the vacancy of one or more seats in their row.

[0032] The present method can also be applied considering the aircraft's occupancy rate or specific occupancy conditions, for example, skipping rows and/or empty seats when forming the groups.

[0033] To ensure passenger comfort and, in particular, to make it so that boarding procedure is the fastest possible, boarding of the first group will be followed by a second group having, at first but not necessarily, the same maximum number of passengers as the first group, which will occupy, in counterflow boarding direction, a next row at a distance from the row of the first group such that it allows simultaneous permanence, in a line (in line and/or side by side and/or one after the other), of all passengers of the first group in the aircraft aisle, which would be the worst case in terms of movement and settling.

[0034] In practical terms and considering a non-limiting example, an aircraft with 32 rows having 6 seats each, the spacing between rows being of 0.75 meters and with passengers standing in the aisle occupying, on average, a space equivalent to one circumference of 0.5 meters in diameter around them, will have a first group of up to 6 passengers destined to occupy the seats of row 32, and a second group, also having up to 6 passengers, destined to occupy a row that is at least 6 passengers away in the conditions described above, therefore, at least 3 meters or 4 rows away from row 32, that is, to occupy row 28. Similarly, a third group will occupy row 24, a fourth group row 20, a fifth group row 16, a sixth group row 12, a seventh group row 8 and an eighth group row 4, thus completing boarding for the first wave, totaling 48 passengers boarded in sequences of 8 groups of 6 people in each group.

[0035] In the example above, therefore, 4 waves are needed to fill the aircraft, with 6 passengers boarding every 24 seats, in a scheme herein referred to as 6 by 24.

[0036] Then, a second wave will follow the same standard as the first wave, being also made up of 8 groups, each formed by 6 passengers, the first group intended to occupy the next row furthest from the aircraft entrance, in the counterflow direction, preferably skipping one of the rows and, preferably, the next row of an even number (if the first wave started with an even-numbered row) or an odd number (if the first wave started with an odd-numbered row). That is, it should preferably start with the seats in row 30, being followed by the other groups so as to occupy, according to the rule of the first wave, rows distant enough to allow passengers from the previous groups to have room in the aisle, that is, rows 26, 22, 18, 14, 10, 6 and 2, boarding of the second wave being concluded with 48 passengers, totaling 96 passengers on board.

[0037] Then, a third wave will follow the same structure as the previous waves, being made up of 8 groups, each formed by 6 passengers, boarding for the first group intended to occupy the next row furthest from the aircraft entrance, in the counterflow direction, preferably skipping one of the rows and, preferably, the next row of an odd number (if the first wave started with an even-numbered row) or an even number (if the first wave started with an odd-numbered row).That is, it should preferably start with the seats in row 31, being followed by the other groups so as to occupy, according to the rule of the first wave, rows distant enough to allow passengers from the previous groups to have room, that is, rows 27, 23, 19, 15, 11, 7 and 3, boarding of the third wave being concluded with 48 passengers, totaling 144 passengers on board.

[0038] The fourth and last wave will follow the same standard as the previous waves, being also made up of 8 groups, each formed by 6 passengers, starting with the next row furthest from the aircraft entrance, in the counterflow direction, preferably skipping one of the rows and, preferably, with the next row of odd number (if the third wave started with an odd-numbered row) or an even number (if the third wave started with an even-numbered row).That is, it should preferably start with the seats in row 29, being followed by the other groups so as to occupy, according to the rule of the first wave, rows distant enough to allow passengers from the previous groups to have room, that is, rows 25, 21, 17, 13, 9, 5 and 1, boarding of the fourth wave being concluded with 48 passengers, totaling 192 passengers on board, thus concluding the process of passenger boarding.

[0039] It should be noted that the distance between the first rows of each group in each wave creates specific events for each group, preventing confrontation between passengers from different groups, ensuring passenger comfort as well as boarding promptness, as it respects the room between rows of seats needed so that the total number of people in each group can settle themselves properly.

[0040] Confrontation, in the context of the invention, means any situation that results in delays or creates discomfort for passengers, waiting caused by passage blockages or situations in which one or more passengers stand up so that another passenger can be seated.

[0041] It is also worth noting that the distance between the initial rows of each wave leaves room for maneuvering in case of an unforeseen event, such as a passenger in a longer-than-normal settling process and still standing, for example, still collaborating to boarding promptness.

[0042] In the method of the invention, the possibility of confrontation between passengers in boarding situations is reduced to just one confrontation, possible between subsequent waves, that is, there may be a confrontation by wave, between the last passengers of a wave and the first passengers of the next wave.

[0043] The process of alternating between odd or even waves, two by two, may vary according to the features of each aircraft, and must be tailored to the general conditions of each application. Alternating rows by side and/or aisle of the aircraft can also be considered.

[0044] If the aircraft has rows with different seat numbers and/or rows with different distances and/or seating configurations, as is the case, for example, in the regions near the airplane's emergency ends or exits, or for subdivision of room into classes (first class, business class, economy with additional room, economy, etc.), the row with the largest number of seats can be considered as the basis for calculations, it is also possible to assign waves and groups with different sizes, considering these conditions.

[0045] To illustrate the situation of rows having different seat numbers and/or rows having different distances and/or seat configurations, we will take as an example an aircraft with the configuration of 30 rows in economy class having, each row, two sets of 3 seats next to the respective windows and a set of 4 seats in the center of the aircraft, with an aisle between each group of 3 and 4 seats, with a distance of at least 0.8 m between each row. In this case, the method of the invention suggests forming groups of 10 passengers each, for example, depending on the situation, each group can be divided into subgroups, one for the right aisle and another for the left aisle. Each group would have 10 passengers arranged in intervals of 3 rows of seats, making up to 10 groups per wave. Thus, a first wave would call passengers in rows 30, 27, 24, 21, 18, 15, 12, 9, 6 and 3, respectively, the second wave would be formed by passengers in rows 29, 26, 23, 20, 17, 14, 11, 8, 5, 2 and finally the last one would be formed by rows 28, 25, 22, 19, 16, 13, 10, 7, 4 and 1. In this way, 10 passengers will be boarded every 30 seats, in a 10 by 30 scheme. It should be noted that in this example, there was no need to alternate between odd and even, thus demonstrating the flexibility and versatility of the method.

[0046] An example of the situation of subdividing the aircraft room into classes (first class, business class, economy with additional room, economy, etc.) may be that of an aircraft with the first class formed of 4 rows having 4 seats each, with row spacing higher than conventional or different from usual. According to the method, following the logic explained above, 2 waves of 2 groups would be formed, the first wave being of rows 4 and 2 and the second wave of rows 3 and 1, boarding 4 passengers every 8 seats, in a scheme called herein 4 by 8.

[0047] Therefore, it is possible to also group the waves and promote boarding of the waves by class of the same aircraft.

[0048] The method of the invention, therefore, is flexible and makes it possible to expedite boarding for any type and model of aircraft and practically all seat configurations, also allowing for variations in accordance with specific needs.

[0049] The example of boarding 6 passengers for every 24 seats shown initially for an aircraft with 32 rows of 6 seats each, can also be applied to a 24-row aircraft with 6 seats each (4 waves of 6 groups), while this same aircraft configuration can be loaded with 6 passengers every 36 seats (6 by 36), that is, in 6 waves of 4 groups each, with a first wave formed by seats 24, 18, 12, 6, the second by seats 22, 16, 10, 4, the third by seats 20, 14, 8, 2, the fourth by seats 23, 17, 11, 5, the fifth by seats 21, 15, 9, 3 and the sixth by seats 19, 13, 7, 1. This variation in the boarding scheme will depend on several factors, such as the distance between rows and the room for each passenger standing in the aisle.

[0050] It should also be noted that sequential waves on a same boarding process can have different group numbers, for example, in an aircraft with 29 rows of 6 seats each, the waves can be formed by groups with, respectively, seats 28, 24, 20, 16, 12, 8, 4, then 26, 22, 18, 14, 10, 6, 2, then 29, 25, 21, 17, 13, 9, 5, 1 and, finally, 27, 23, 19, 15, 11, 7, 3, thus having 3 waves with 7 groups and 1 wave with 8 groups. It should also be noted that in this case, boarding did not start from the last row, proving, once again, the flexibility and versatility of the method of the invention. This example refers to boarding of 6 passengers for every 24 seats.

[0051] The same aircraft configuration as in the example above, and also depending on the distance between the rows and the room for each passenger standing in the aisle, can be boarded by a scheme of 6 passengers for every 36 seats, with the waves being formed by groups with, respectively, seats 28, 22, 16, 10, 4, then 26, 20, 14, 8, 2, then 24, 18, 12, 6, then 29, 23, 17, 11, 5, then 27, 21, 15, 9, 3 and, finally, 25, 19, 13, 7, 1, thus having 5 waves with 5 groups and 1 wave with 4 groups.

[0052] It should be noted that the method according to the invention is simple and intuitive, easily understood by the passenger, eliminating any and all additional tools for leading passengers, complementary codes or signals, legends, instructions and, noticeably, does not require the passenger to be connected to any devices or assisted by the ground crew.

[0053] Each wave corresponds to the total number of passengers who may stand at the same time in the aircraft's aisle, with enough room for everyone to stand and/or settle at the same time, with the confrontation between passengers being possible only between subsequent waves.

[0054] In addition, the method of the invention does not require intermediate commands and additional control and supervision services by the boarding agents, since the lines formed will be of short duration and automatically dissipated following the forward pace of the last passenger of the last group of a wave, that is, as the last passenger of each wave settles.

System

[0055] A system according to the invention is a system for passenger information, organization, leading, boarding and settling in collective transportation means, which aims to optimize resources by boarding passengers in sequential waves formed by groups of passengers, therefore, assisting in carrying out a method according to the invention.

[0056] The system of the invention presupposes an airport physical structure and at least one boarding region of the airport physical structure, being basically composed of a main unit comprising one or more data processing centers, one or more databases, one or more information presentation equipment and other devices and/or equipment that enable its operation for perfect integral and/or partial carrying out of the method according to the invention.

[0057] A data processing center is an electronic processor, preferably a computer equipped with a connection to a data network and a remote database or an information storage and retrieval means, local and/or centralized and/or decentralized and/or in the cloud, and also equipped with all the usual peripherals of the state of the art, being able to exchange information with electronic and physical means, interfaces, applications, mobile equipment, etc.

[0058] The data processing center can be connected to the airport's data and communication network, the internet, the cloud, computer terminals, mobile devices, phone devices, ticket and boarding pass readers, credit cards, NFC or BLE devices, check-in counters, travel agencies, in short, to any equipment or interface directly or indirectly necessary to implement the method of the invention.

[0059] An information presentation equipment is any set of visual signaling formed by devices capable of projecting and/or emitting and/or presenting images and lights and of emitting visual and audible signals in general, being directly connected to the data processing center. The information presentation equipment can also comprise auxiliary support monitors distributed throughout the airport infrastructure environments.

[0060] The information presentation equipment of the invention is a virtual guide that indicates the boarding sequence according to the method of the invention, being disposed directly on the ground and/or projected on the ground by means of projectors located above the passengers. The number of projectors above or under passengers is such that shadows or regions with poor presentation are not formed.

[0061] The virtual guide has the form of a dynamic mat formed by adjacent cloths and that accompanies the movement of passengers in an adaptive way, in that sensors on the ground and/or above and/or laterally to the passengers, together with a computer program or application, boarded or accessed via a data processing center, identify, count and sort the number of people on/in the virtual guide, detecting their movement and following the flow and speed of each passenger and of the set of passengers, following with the boarding sequence instructions in real time, according to the monitored flow and speed.

[0062] The virtual guide is placed in the boarding area of the airport physical structure, preferably in the airport lounges next to the boarding gates, wherefrom boarding coordination is carried out according to the method of the invention.

[0063] The virtual guide will basically present to passengers the procedure instructions and indications according to the method of the invention, that is, it will present, sequentially, the numbers of the seats and/or rows and/or waves and/or groups to be boarded, according to each situation and boarding scheme chosen.

[0064] Therefore, passengers belonging to the first group of the first wave will be the first to receive instructions from the virtual guide to proceed to the boarding gate and present themselves to boarding control, having the number of their rows and/or their respective seat numbers projected or presented in the virtual guide, having, individually or in group, reserved room for them to position themselves in the boarding region of the physical airport structure.

[0065] As passengers move on the virtual guide towards the departure gate, it follows with the numbers of the next passengers like a dynamic mat, inducing passengers to move forward on the virtual guide.

[0066] Using the same example above involving wave boarding a 192-seat aircraft, with 32 rows of seats with 6 seats per row, single aisle, and adopting a 4-wave boarding model, one can imagine a virtual guide with measures of 1.20 meters wide by 10.00 meters long.

[0067] The virtual guide initiates projection or presentation of an initial cloth of a certain color and/or initial visual pattern, measuring 1.20 meters wide by 1.80 meters long, for example, with the indicative numbering of row 32 (first wave of the first group in the example used). In this shape and size, there is enough room to accommodate the 6 passengers in said row 32. Immediately after this first cloth, another cloth, adjacent, in color and/or visual pattern different from the first, is projected, in order to facilitate the distinction and draw the attention of passengers, with indicative numbering for row 28, where the 6 passengers of row 28 will be, and after that, another cloth indicative of row 24 will be projected, and, in sequence, another cloth for row 20, another for row 16 and another for row 12, preferably alternating colors and/or visual pattern, accommodating, thus, 36 passengers in that first static image of the virtual guide. Remaining passengers must stay close to the guide, waiting for their positions to be indicated in the virtual guide. It is important to note that this guide can have different measures to have a greater number of cloths, accumulating more passengers and/or providing more room and comfort for passengers.

[0068] When boarding begins, the first passengers located in row 32 will begin to move on the virtual mat towards the boarding gate, and only after the passenger positioned in the last position of the screen 32 begins to move, will the final division of cloth 32 start moving, thus reducing the length of the cloth of row 32 and increasing the size of the next cloth, that is, of the cloth corresponding to row 28.

[0069] In the same way, the division between cloth 28 and 24 will only begin to move after the last passenger of the cloth 28 has moved, and so on for all cloths of the initial static projection, that is, from cloth 32, to cloths 28, 24, 20, 16, 12. It should be noted that each cloth will disappear completely when its last passenger leaves the surface of the virtual guide.

[0070] After cloth 12 has moved, cloth 8 will begin to show, and advance along the path of the mat, forming a size of at least 1.80 meters, and remaining so until there is no passenger positioned on it. After the passengers enter the current cloth area, the movement will become organic, keeping a minimum size of 1.80.

[0071] Passengers on cloth 8 will have the entire route of the mat to position themselves on it for continuing with boarding. Thus, successively, cloth 8 will appear, then cloth 4, obeying the concept of waves until all groups of the 4 waves have been formed.

[0072] Said movement of all cloths and their divisions follows an organic concept, and the virtual guide, through sensors on the ground or above or laterally to the passengers, identifies their movement, creating orientation, formation and displacement of the virtual guide. Therefore, this organic boarding format depends only on previous selection of the aircraft model and the type of boarding, so that it may proceed with the entire sorting of passengers without the need for any other command.

[0073] In functioning this way, the virtual guide creates the effect of a living organism, since passengers will only be guided by the guide when accessing it. After that, there is no longer any need for the passenger to be guided by it, simply being required to follow the passenger (s) in front of them as in a common line, as all movement of the cloths in the guide will adapt to the movement of the passengers, in size, speed, acceleration and pause. In this way, it is clear that it is the passengers who move the guide and not the guide who moves the passengers.

[0074] One can also imagine conducting the virtual guide in a partially organic scheme and in a manual scheme.

[0075] In the case of a partially organic scheme, one can imagine a mat having a division only between the 2 cloths in front of the mat, organically controlled, as described above. The formation and creation of the back cloths is a consequence of the movement of the first cloth, however the back cloths would have additional configurations, such as minimum length when passengers on the mat are stopped, and maximum length for when they are in motion.

[0076] In the manual control version, control of the mat can be carried out by a human operator, who would manually control the advance of the first cloths to create an effect similar to that of the movement in the partially organic scheme, carried out through a simple command given by the operator, moving forward or stopping or even pulling back the cloths.

[0077] It should be noted that the virtual guide, although smart, is simple and intuitive, easily understood by the passenger, eliminating any and all additional tools for leading passengers, complementary codes or signals, legends, instructions and, noticeably, does not require the passenger to be connected to any devices or assisted by the ground crew.

[0078] The virtual guide informs passengers, in the departure lounge, the passenger attendance sequence for boarding, projecting sequential spaces, in the passenger movement direction, sufficient to allow for physical settling, even in the departure lounge, of all passengers in each group.

[0079] It should also be noted that the method according to the invention can be performed independently of the system of the invention, as a whole, as well as without the use of a virtual guide, and can be coordinated, for example, by visual and/or audible command and/or voice of the ground crew, making use of the infrastructure already installed, for example, monitors, displays, indicative arrows, paintings etc. already present at the airport.

Equipment

[0080] An equipment according to the invention is an equipment for passenger information, organization, leading, boarding and settling in collective transportation means, which aims to optimize resources by boarding passengers in sequential waves formed by groups of passengers, therefore, assisting in carrying out a method according to the invention, and being part of a system according to the invention.

[0081] The equipment of the invention is part of a composite set, being basically composed of a main unit comprising one or more data processing centers, one or more databases, one or more information presentation equipment and other devices and/or equipment that enable its operation for perfect integral and/or partial carrying out of the method according to the invention.

[0082] The equipment of the invention is, in particular, a “virtual guide” equipment which is part of a system according to the invention for carrying out a method according to the invention.

Computer Programs

[0083] A computer program in accordance with the present invention is a computer program set in a computer-readable medium, associated to a system and/or one or more equipment in accordance with the invention, intended for carrying out a method in accordance with the invention and to coordination of one or more elements of the system according to the invention.

[0084] Another program in accordance with the present invention is a computer program set in a computer-readable medium, able to carry out a method according to the invention in a “virtual guide” equipment according to the invention.

EXAMPLES

[0085] Extensive experiments and simulations were carried out and their results clearly illustrate the efficiency and effectiveness of the method according to the invention.

[0086] The simulations below were performed by a model applied to a simulator developed for a computer, intended to test the present method for boarding passengers in an aircraft, and in this model a single-aisle aircraft was considered, with a total of 192 seats, all occupied, divided into 32 rows of 6 seats each.

[0087] Regarding passenger behavior, the following variables were considered, randomly assigned to 192 occupants:

[0088] A) Passenger movement speed: from 0.8 to 1.2 meters per second;

[0089] B) line delay: 0.6 to 1 second (time of perception and start of passenger movement after movement of passenger in front);

[0090] C) Time for passenger settling and luggage storage: 4 to 32 seconds;

[0091] D) Getting up from a seat so that another passenger may settle: 3 to 5 seconds; and

[0092] E) Recognition time at the boarding counter: 3 to 9 seconds.

[0093] For the model of the invention, a boarding model of 6 passengers was used for every 24 seats, therefore with 4 waves having 8 groups per wave.

[0094] For comparison with the inventive wave model, two other simulated boarding methods were considered, one with a single row and the other with a double row, with division of the front and rear parts of the aircraft.

[0095] A double counter was also considered in the simulation for the method of the invention, with two people checking the boarding tickets, thus in this model the bottleneck would've been the counter, if a simple counter were used.

[0096] As the variables applied to passengers in the simulator are random, the times obtained varied between simulations performed. Therefore, 50 (fifty) simulations were performed for each of the 3 boarding methods tested and the average of the results obtained was considered.

[0097] The time obtained in the simulations corresponds to the average time between entry into the aircraft by the first passenger and settling of the last passenger.

[0098] The average time obtained for the single line model was 22 minutes and 6 seconds, while the average time obtained in the double line model was 23 minutes and 3 seconds.

[0099] In turn, the average time obtained with the model of the invention was 10 minutes and 55 seconds.

[0100] Therefore, it is concluded that the time saved inside the aircraft is at least 50% in relation to the boarding models most commonly used in single-aisle aircrafts.

[0101] Even though 32-row aircraft (192 seats) are not so common, it was the model chosen because it represents the average occupancy of the most used single-aisle aircrafts.

Conclusion

[0102] The present invention provides a method, system, equipment and computer program that augment in a new and inventive way the solutions to problems of the state of the art for aircraft boarding logistics.

Final Remarks

[0103] It will be easily understood by those skilled in the art that modifications can be made to the present invention without departing from the concepts set out in the description above. Such modifications should be considered as included within the scope of the present invention. Consequently, the particular embodiments described in detail above are only illustrative and exemplary and are not limiting to the scope of the present invention, which should be given the full extent of the appended claims and any and all equivalents thereof.