Public:ARHUDFM Manifesto: Difference between revisions

Revision as of 22:30, 16 July 2023

Abstract

Augmented Reality Head-Up Display Fullface Mask (ARHUDFM) is a complex device that is not easy to understand at a first look because there are few relevant examples to compare. Therefore, we ask you to discard as much as possible all prejudices, past experience, authoritative names and opinions previously expressed by anyone. Then it will become easier to understand the ideas, algorithms, mechanics of the processes associated with the functions of this device and its applications.

It is also important to focus attention on that today in 2023 the pace of technology development is many times higher than in 2007, when the world got acquainted with the first iPhone. This means that a fundamentally new device today has a higher technological base than 16 years ago, and its evolutionary path from "1st to 14th model", measured in terms of user capabilities, will take less than 5 years. The comparison with the iPhone is not accidental. This technology has disrupted user behavior. We strive for a similar effect for the military and security forces, and therefore we deeply research the user experience, problems, risks, potential opportunities and current trends in the field of defense and security.

It is important to understand that this technology is intended for 2030-2060, i.e. the period of its widespread deployment and use. We need to look at the future of life and technology in these coming years without looking back, then our plan will become better understood. If we don't do it, someone else will.

The experience of the appearance of new technologies shows that in the first years many people evaluate them with a certain degree of skepticism. For example, who were YouTube and Amazon in 2004? Why do they have such a strong head start over the rest in "the red ocean market" today?

But there are also negative examples where companies have lost their appeal because their spirit of innovation has dried up. Therefore, our backlog is very extensive and deep. We will be able to offer users and customers something new not only now, but also in 15-20 years.

The U.S. is known to set trends. Therefore, after a couple of years, other countries will also catch up. And if so, then serious investments will come to the segment.

In addition, it is necessary to get ahead of the question in advance: "How is it possible to do this with the forces of a small startup so far?" Our answer, we are sure, will be understood and accepted by you with confidence: "Of course, our research and development is innovative. But we are swimming in the middle of a turbulent river of innovations of tens of thousands of people. Most of the Open Source software functions and technologies, electronic components and integrated circuits have already been created^[1] and are available to us in the role of integrators. In accordance with our idea, we assemble a constructor from many puzzles. Therefore, the share of pure innovation in this product does not exceed 10%. And if several large corporations in the 2000s with the help of several thousand engineers with a budget of more than a billion did something similar in 8-10 years, then in the 2020s, something even better with the help of its own several dozen engineers plus Open Source, with a budget of less than 50 million, can make a startup within 5-7 years, moving from simple to more complex, update after update. While creating an open platform for third-party development teams to join (this is also a DoD requirement)."

Manifesto

We are an international team committed to democracy, peace, human rights and health. We create capabilitites for strengthening defense in the countries of NATO and its allies. We understand that only a significant superiority in military force can keep the peace, as it deprives dictators and terrorists of the hope of even a short-term victory. Therefore, we share the ideas and strategic goals that are described in the many policy documents and requests for innovative proposals that we receive from the defense agencies of the U.S., EU, Switzerland, UK, Canada, Israel, Australia, South Korea, Japan.

We are developing ARHUDFM technology so that the military personnel of these states can:

Increase efficiency (lethality; consistency; savings in time, ammunition, equipment and carry weight; logistics)
Increase security (threat and impact detection distance; detection protection; repositioning; quick assistance; vitals body signs tracking, Care Under Fire (auto stopping acute bleeding) and Resuscitation on the Move (automatic fluid and cardiopulmonary resuscitation); face and respiratory protection
Reduce stress (psychological and physical; drinking system; monitoring of vital signs)
Improve skills (learning and training quality; mentoring; best practice tips; AI assistance)

Human Augmentation

The meaning of Human Augmentation is complex and relatively new to people, so it will not be superfluous to specify what it includes.

Expanded visual perception of the environment using sensors
Augmented visual perception with numeric, symbolic and graphical data
Augmented visual perception of processed data of received radio frequencies of transponders, scanning of a RF wideband, RF source direction finding, radars and anti-radars
Mixed natural auditory perception of the environment and auditory perception of superimposed channels of filtered frequencies, dedicated sound waves, audio interface and voice communication
Augmented human cognitive capabilities with the help of Artificial Intelligence technologies:
1. Machine perception - perception through Computer Vision, Computer Audition, RF Scan without user distraction (in the background)
2. Machine analysis of information about the environment - analysis and thinking based on machine perception, providing ready-made results and recommendations to the user, sending messages to the analytical control center
3. Machine attention - concentration and prioritization of machine perception and analysis processes, notifications and critical messages about threats to the user
4. Machine memory - Machine Learning, incl. remembering the best practices of many users, and extracting data "just in time" for the user on his request and without request in the form of tips
5. AI-based voice assistant - Generated Pre-trained Transformer (GPT^[2]) - in this case, a small language model and small generative Artificial Intelligence that can understand the natural language of users and other people in several languages, translate into other languages, independently form commands for applications, take into account cognitive stereotypes (habits) and user preferences, independently interact with other AI-based systems, interpret the results of applications and other AI systems - is an important part of the interface

Visual Augmentation

Human vision is 3/4 of all information received, more than 75%. The benefits for military personnel combine 5 areas at the same time:

the capability for the user to see beyond human abilities (zoom in, at dusk, in the dark, in front of a dazzling light source, in the invisible infrared, in the invisible radio frequency range)
the capability for the user to see simultaneously from different angles (front, back, view from the camera of the sight, view from the camera of a drone or robot, view from the camera of another user)
the capability to detect and recognize objects, people and faces, movement, flashes, heat and smoke traces, identify friend or foe within line of sight (LOS) and beyond line of sight (BLOS), incl. in the background, i.e. 100% attention focus always
the capability to use synthetic visual aids: navigation grids and signs, maps, virtual enemy during training, symbolic and text messages, graphic information, digital data
the capability, without losing the overview of the environment, to have several combined visual layers and parallel visual channels

To implement these capabilities, optical lenses, 8K UHD (ultra high-definition video), HDR (high dynamic range), SWIR (short wavelength infrared), LWIR (long wavelength infrared) sensors, SDR (software defined radio) integrated circuits are built into the device. And other electronic circuits and modules. Integration with digital sights, drone and robot cameras, cameras of other users, RF antennas for different bands, passive covert surveillance radar (PCSR), metal re-radiation radar (MET3R), weather stations and anemometers, vitals body sensors is also provided.

Audial Augmentation

Human hearing is about 1/7 of the total amount of information, more than 13%. The benefits for military personnel in terms of audio perception and at the same time hearing protection is something to think about in combination with other important advantages of this technology.

The openings at the bottom of the headphones ear cups are permanently open for ambient sound perception with minimal attenuation (less than 10 dB SPL). When the threshold values of the ambient sound pressure are exceeded, these openings are closed with soundproof sealed dampers. The response time of the electromagnetic pushers of the soundproof damper drives is less than 3 ms (0.003 s). This is faster than the period of movement of a blast wave at a distance of 8 yards and sound wave at a distance 4 ft.

There are several reasons why soundproof dampers are used:

to reduce the sound pressure level for hearing safety by ∆80 dB SPL to 15-85 dB SPL (upper limit of normal)
to reduce the level of real-time audio monitoring (audio environment) to distinguish other audio information well
to reduce the risk and severity of air concussion injury

Important facts about lethality and injury

How exactly with the help of this technology we can improve the safety of military personnel needs to be researched based on statistics.

The main damaging factors during combat operations are the following:

hit by bullets
damage by non-preformed fragments of explosive ordnance (bomb; land and controlled mine; IED; artillery, mortar, and tank shell; missile, grenade)
damage by preformed fragments of explosive ordnance
shock wave (overpressure) damage from explosive ordnance
shock wave (overpressure) damage from volumetric detonating ordnance - thermobaric and enhanced blast explosives (TBX and EBX)
temperature and toxic effects of explosive detonation products (soot, CO₂, CO, NO, HCN, P, etc.)
secondary mechanical damage (fragments of destroyed objects, barriers, stones, body parts, dust)

Localization of injuries according to the statistics of military field surgery in Iraq and Afghanistan: head and neck - 16%, chest - 8%, abdomen and lower back - 7%, limbs - 56%, combined injuries - 13%. The development of technologies in the field of body armor for protecting the chest, lower back and pelvis over the past 100 years has reduced the number of injuries by 3 times. But against the background of a general decrease in the percentage of manpower losses, the proportion of head injuries remains high - up to 20-25% and does not change. In the same way as the share of damage to the limbs - up to 50-60%.

Bullet wounds

The majority of lethality from 50 to 70% are associated with bullet wounds. Non-lethal cases of bullet wounds account for 30-40%.

What could help reduce the number of lethality and injury:

increase in combat range
reduction in combat time
increase in shooting accuracy
identification of friend-or-foe (IFF)^[3]
improving the collection and exchange of IRS data on enemy positions from and for each military person
improving cross-domain interaction to suppress enemy positions for each military person
the speed of first aid ("Care Under Fire", "buddy aid", "en route care"^[3]), incl. auto tourniquets for limbs and monitoring of vital signs
improved logistics and speed of evacuation

Fragment wounds

The number of lethality from fragment wounds in modern conflicts is 20-40%. Non-lethal cases - from 40 to 50%.

What could help reduce the number of lethality and injury (same as above, and plus):

early warning of mortar and artillery fire
early warning about drones and robots
instant messaging between all military personnel within the unit
improved navigation and coordination of tactical tasks performed by smaller units ("move apart - hit together")
face protection and improved head protection from fragments at the trajectory end and at a tangent

Mine-explosive wounds

Mine-explosive wounds are the cause of 10-15% of lethal cases. And about 15-20% non-lethal.

What could help reduce the number of lethality and injury (same as above, and plus):

protection of the entire head and hearing organs from air concussion
the ability to detect anti-personnel and anti-tank mines, trip wires and IEDs for each military person

Some examples and facts

For example, during the explosion of explosive fragmentation projectile of 155 mm caliber with 10 kg of IMX-104 explosive, there are several damaging factors (according to the degree of danger):

fragmentation of up to 2000-4000 elements on average 1 g (0.5-8.0 g) at speeds over 600 m/s (initial speed 50-1400 m/s) in the damage field at a range of up to 200 yd, the irregular shape of the fragments contributes to their rapid loss kinetic energy
the impact of a shock wave at a range of up to 20 yd, not only in the line of sight, but also in a shelter or behind an obstacle (leaking shock wave)
the impact of a sound wave up to 190 dB SPL, not only in the line of sight, causing acoustic trauma, neurological and mental disorders
thermal burn of the face and upper respiratory tract
poisoning by toxic substances, primarily carbon monoxide and nitric oxide

Fragment damage in an explosion

with a mass of steel balls (diameter about 6.25 mm) and fragments ≤1.0 g and an energy of about 26-58 J, penetrating wounds of the skull are observed, at 20-60 J - penetrating wounds of the chest with damage to the ribs, and with an energy of 25-60 J - fractures of the tubular bones of the limbs
severe injury to an unprotected part of the body is caused by fragments weighing more than 0.5 g with a kinetic energy of more than 100 J / cm ²
body armor and helmet is effective against most types of fragment damage, but is ineffective against small arms
light high-velocity fragments inflict the most damage, but lose speed faster with distance

Impact of shock wave

at a distance of up to 8 yd from such an explosion (caliber 155 mm), almost every damaging factor will be lethal
at a distance of up to 20 yd, there is compression in front of the shock wave front up to ∆ 250-350 kPa and a discharge below the atmospheric norm of 100 kPa after the shock wave front, the initial speed of which is up to 3000 m/s, causing barotrauma, loss of combat capability (∆ 150-200 kPa - 7-10 days and short-term hearing loss, ∆ 200-250 kPa - 20-30 days with loss of consciousness up to 3 minutes and long-term speech and hearing disorder, ∆ 250-300 kPa - 45-60 days with loss of consciousness up to 30 minutes and the probability of lethality, up to ∆ 350 kPa and more - disability with loss of consciousness for more than 30 minutes with a high probability of lethality)
far from the epicenter, the shock wave that has lost its strength causes closed injuries to internal organs
in most cases, even with a non-danger damage, there is a loss of combat capability for 3-5 minutes or more
according to statistics, on average, during the field training, military persons on foot are exposed to explosive effects up to 5 times a day, but artillery and mortar crews - from 30 to 300 times a day
despite the fact that the impact of the shock wave is carried out on the entire human body, damage is primarily caused to the most vulnerable organs:
- hearing organs (at ∆Р 103.4 kPa, with a probability of 50%, a rupture of the eardrums is observed, while the threshold for damage to the eardrum is ∆ 34.5 kPa)
- vision, brain (contusion of the eyeball, swelling of the brain and craniocerebral injuries when the head hits other hard surfaces)
- liver and lungs (∆Р 170-200 kPa is the threshold for lung damage, ∆Р 345-400 kPa is defined as the onset of severe lung damage)
- in addition to mechanical damage to the lungs, the injury causes severe irritation of the autonomic nervous system, a response occurs in the form of hemodynamic disturbances, then hemostasis and hemodiapedesis of blood cells and alveoli, in addition, bronchiolar spasm is observed, which contributes to the formation of foci of atelectasis and emphysema

Face protection and improved head protection

energy of 100 J/cm ² and more, according to medical data, most small-caliber fragments have when they enter the human body, from which the multi-layered body of the ARHUDFM mask made of composite material (> 400 J/cm²) protect
at a distance of 8 m or more, in a shelter or behind an obstacle, when using the lower part of the ARHUDFM mask that protects the respiratory organs and the face, in the case of an overpressure jump of the shock wave front, the ear canals, nasal passages, oral cavity and eyeballs are protected by the mask body, seals, non-return valves, air buffer and air filters that reduce the damaging factors of air concussion, stunning, thermal and chemical effects during an explosion
also, additional protection against a overpressure jump of the shock wave front on the occipital part of the head is performed by the occipital part of the mask (body and dampers), when the schock wave front moves from the front (leaking wave), behind, from right and left
this feature is not the main (!) but an accompanying benefit of using ARHUDFM for the user, because reduces the risk of damage only to the head area - however, the risk of damage to the lungs, neck, and other internal organs during air concussion, even with a shock wave flowing into shelters and behind obstacles, and even more the risk of fregment wounds is just as high (fragments 1-3 g, 680 m/s, at a distance of 10 yd)
it is extremely important to constantly monitor the parameters of a person’s life after an injury and timely identify violations for medical care or evacuation. This can be assisted by vitals body sensors in the mask kit.

We deliberately placed emphasis on some issues of the strategy for the development of military tactics and security issues at the beginning of the text. We have repeatedly come across a very superficial frivolous assessment of the design of the device from the outside and a biased opinion without a detailed study of the truly disruptive capabilities that this technology offers to most military personnel and not only on the battlefield. This is a deeply thought-out technology based on numerous studies and statistics. It is designed to save the lives and health of thousands of people, and ultimately hundreds of thousands of people, including the unjustified victims of military conflicts among the civilian population.

Further, you will learn and see how the following features of ARHUDFM help the user to identify and suppress threats, as well as multiply the efficiency in performing tactical tasks in different domains, improve training and exchange of skills among military personnel.

User benefits

Lower part of the mask:

protects respiratory organs from dust, gases, aerosols, bacteria and viruses
provides a functional drinking system
reduces the risk of barotrauma and the degree of injury from air concussion during an explosion
isolates the user's voice during communications and voice commands
prevents fogging of the mask visor
does not obstruct breathing due to the design with very low resistance

Customer benefits

The hardware part is capable of completely replacing in the future (also reducing the weight and cost of equipment, getting rid of cables on the body):

Equipment	Price, $	Weight, g	Notice	Price, $	Weight, g
Samsung Tablet PC 10"	800	470		-	-
Night Vision Binoculars^[4]^[5]	8800	740	~500g + 1 battery 60g (15 hr), 4 batteries 240g (50hr)	-	-
Binoculars 10x50^[6]	545	730		-	-
Rangefinder^[7]	400	270		-	-
Tactical Headset^[8]	700	335		-	-
Ballistic Meteo Station	900	120		-	-
Multi-channel Handheld Radio^[9]	5600	1250		-	-
Tactical flashlight^[10]^[11]^[12]	156	170		-	-
Tourniquet CAT 8pcs	290	600		-	-
Medical Kit
3 external antennas VHF / UHV / L/S	800	310	multiband^[13], dual-band^[14], wideband^[15]	?	?
ARHUDFM full set	-	-	over 14 hours of continuous operation	3400	1300
Continuous Wind Capture impellers 2pcs	-	-	increased accuracy in measuring wind speed and direction, hands free	150	80
8 auto tourniquets	-	-	contains sensors (adhesive gel reusable electrodes) of ECG, pulse, blood pressure, saturation, temperature; controlled by VBS app via Bluetooth spring cocked mechanism with additional electromechanical string tensioner and electromagnetic lock	2000	1120
Care Under Fire set	-	-	elastic belt with pockets, plasma substitute 700 ml, anticoagulant and other solutions 100 ml, automatic infusion therapy (fluid resuscitation) system, adhesive gel reusable electrodes for monitoring and defibrillation, automatic defibrillator, 2 pneumatic pumps for pulmonary resuscitation	2800	1300
Software Defined Antenna	-	-	Rx / Tx, 2 MHz - 8 GHz, 48 patch antennas (RF beams) for Comms, RF scanner, Radio Direction Finding, Radar Detection, Passive Radar, Drone Detection, Remote Control	1600	250
Drinking water		2000			2000
Full kit	18991	6995	15.4 lbs vs 13.3 lbs	9950	6050
Optional:
Tactical Mine Detector^[16]^[17]	9500	6360	diving depth - down to 78 in, search head - D 10.5 in, metal-only anti-personnel (AP) and anti-tank (AT) mines (ground penetrating radar (GPR) and highly sensitive metal detector (MD))	-	-
Handheld metal re-radiation radar	-	-	diving depth - down to 4-8 in, search spot D 9.6 in, battery up to 4 hours, SHF impulse metal re-radiation detection and Computer Vision integrated (metal and non-metal mines on the ground)	1800	210
Optional battery up to 1.1kWh	-	-	over 72 hours of continuous operation, powered by a defibrillator and pneumatic pumps (4x12, max 48pcs LiMgCoAl 26650 3.7V 5500mah)	1400	4600
Telescopic sight				-	-
Digital sight	-	-
Total	28491	13355	29.4 lbs vs 23.9 lbs	13150	10860

Comparison note:

full set price difference is 47%
it is likely that with the distribution partner (Lockheed Martin, Northrop Grumman, BAE Systems, Elbit Systems, Rheinmetall, General Dynamics, Palantir, etc.) the price will increase, but we expect that the difference in this case will be more than 20%

Facts for comparison:

we expect to reduce at least halve the mass of additional power batteries (10.1 lbs, 1.1 kWh, over 72 hours of continuous operation) within 3-4 years as battery technology advances
technologies for cardiac monitoring, health monitoring using sensors, automatic defibrillation, automatic resuscitation on the move have been used for more than 10-20 years; however, with the help of modern components and technologies, we are able to make them much more compact and lighter so that they can be included in the standard set of equipment (like body armor, knee pads, gloves, ballistic helmet) to give the military an extra chance to stay alive in a potentially extreme situation
projected price of ARHUDFM is lower than the cost of one M1128 155 mm artillery shell (~$4000)
a full set of equipment is 47% cheaper and 2 pounds lighter, but the difference in capabilities is huge

Areas of research

Related fields

Future ideas

Dev (temporary)

Сначала страница GUI - вводные, как выглядит интерфейс, как им управлять, что происходит, примеры интерфейса
Затем страница Apps - список приложений, через какое меню, краткое описание функциональности, примеры интерфейса
- проверить, ничего ли не забыл из презентаций и страницы характеристик
После страница User cases - список кейсов, ситуация, тактическая задача, цель, какие функции и как используются, примеры интерфейса
- отрисовка мокапов интерфейса (под кейсы и заодно вставить потом в др. страницы)
Apps details - подробности работы приложений, примеры интерфейса

Последовательность (?):

Write out scenarios
Mockups (drone UI, UAV UI, drone control, )^[18]^[19]
Make a storyboard
Animate elements (tilda example, )
Panning video animations
Insert a dynamic background (bright day, cloudy day, overcast day, twilight, night, night with bright highlights)

Шаблон страницы приложения (Apps details):

Возможности
Примеры интерфейса
Требования к ресурсам
Примеры
Референсы опенсорс

ИИ (AGI):^[20]^[21]

Интерпретатор голосовых запросов в команды для приложений
Машинное обучение на основе ранее выполненных команд данным пользователем и опытными инструкторами
Обзор лучших практик на основе выгрузки на сервер трекшн тысяч пользователей и контактные подсказки пользователю на их основе (статистическая модель ИИ)
ИИ на основании цели от пользователя запускает приложение в фоновом экономичном режиме и после выполнения сообщает результат и демонстрирует его на экране, затем сам скрывает окно после реакции пользователя
умеет приобретать новые навыки
умеет принимать решения в условиях неопределенности (вероятностные модели ИИ)
решать конкретные задачи на уровне человека или выше
система, которая будет объяснять, мотивировать свои решенмя

Огонь из стрелкового оружия:

Колиматорный прицел. CLW отображает цель с увеличением, прицельную сетку и коррекцию для точки прицеливания.
Оптический прицел. CLW отображает прицельную сетку и поправки, которые нужно ввести для оптического прицела.
Цифровой прицел. CLW + CRW вместе, линия прицела в форме ромба.

Цифровой прицел:

по аналогичной трёх сенсорной схеме мы сможем разработать прицел с блютуз
при значительном расхождении линии прицеливания и линии взгляда пользователя, экран автоматически разделится на два (например при стрельбе из-за углового укрытия). В этом случае CV будет обрабатывать поток с камеры прицела, а не маски.

Автотурникеты:

турникет накладывается в случае массивного кровотечения по принципу "high and tight"
если своевременно этого не сделать, человек может умереть в течение двух – трех минут
после наложения турникета пострадавшего как можно скорее должен осмотреть медик
человек может носить турникет, не ослабляя, безопасно до 2-х часов и относительно безопасно от 2 до 6 часов
нельзя ослаблять турникет, это опасно для здоровья и жизни, ведь ослабление жгута может привести к возобновлению критического кровотечения
кровотечение при наложении турникета останавливается в результате сжатия мышц
критическое кровотечение не делится на артериальное и венозное, турникет всегда накладывается выше места раны
места установки авто-турникетов: плечо, предплечье, бедро, голень - в каждом случае в верхней части
окружность конечности / ширина жгута х 16.67 + 67
контролировать отсутствие ослабления необходимо каждые 5-10 мин.
референсы - оригинальные турникеты CAT, NAR, LEAF, см. больше

Места установки датчиков:

2 запястья (в т.ч. проверка пульса при срабатывании автотурникета выше)
2 предплечья
2 плеча
2 лодыжки (в т.ч. проверка пульса при срабатывании автотурникета выше)
2 голени
2 бедра
грудь в области сердца
грудь слева

Что измеряют:

уровень кислорода
пульс
ассистолическое и диастолическое давление
ЭКГ
электропроводимость

Для релевантного сравнения функциональность HMDS (F-35 HUD Helmet Gen III) + Digital Night Vision (усиление света сенсора SWIR, в т.ч. интерполяция, удаление шумов, повышение контрастности).

быть достаточно легким, чтобы пилот мог осматриваться, вытягивая 9G, получить тупую травму от многократных ударов о стены фонаря кабины, быть достаточно точным, чтобы направить 40 000 lb на авианосец ночью, быть достаточно прочным, чтобы выдерживать дождь, коррозионную морскую среду, аляскинский холод и ближневосточную жару, электромагнитные импульсы и излучение вражеских радаров и глушителей (или ядерных взрывов) и т. д.

Автотрекинг и опыт:

отслеживание задач
автозадачи
запись видео для разбора ошибок в комнате тактической подготовки
виртуальный ментор
обзор лучшего опыта и подсказки с помощью ИИ

Экономика инвестиций:

LTV: ориентировочная цена устройства - $2800-3400 ($3100 в среднем) плюс SaaS $7110 ($1440/y) = $10210/4y or $213/m
Амортизация снаряжения в месяц (Fire Teams): ~$17500/y^[22] or $1458
Зарплата в месяц: ~$1638-2597 (E1-E4)^[23] - на самом деле больше
Обучение: ~$1000+
Питание, проживание, транспорт: ~$2000+
Боеприпасы и амортизация техники: ~$2000+

Итого содержание 1 военнослужащего ~$8500+. Cредняя стоимость одного военнослужащего на действительной военной службе в настоящее время приближается к 140 000 долларов^[24] или $11,667/m. Если увеличение расходов на 1.8% сравнить с ростом эффективности и безопасности?

Только подумайте — если вы можете повысить чистую эффективность военнослужащих стоимостью $11.5K+ в месяц всего на 2% (1/50), это увеличит стоимость системы как минимум на $230 до 11730 долларов в месяц. Следовательно, само собой разумеется, что военные США пришли к выводу, что шлем увеличивает общую эффективность системы как минимум на 2%. Это довольно низкая планка. Основываясь на возможностях, которые так красноречиво описаны здесь и на других страницах Вики, я бы сказал, что фактическое улучшение ближе к 20–35% (т.е. те же тактические задачи могут быть выполнены меньшим числом военнослужащих, с меньшими потерями живой силы и техники, с гораздо меньшими расходами боеприпасов). Учитывая эту математику, вместо того, чтобы спрашивать, как мы можем оправдать затраты в $10210 долларов за 4 года, я бы спросил, насколько лучше мы могли бы сделать шлем, если бы мы потратили 15000 тысяч долларов за 4 года на одного военнослужащего.

Композитные материалы в конструкции маски:

базовый слой 1.5 mm из нейлона (полиамид)
наружный слой 1.4 mm из карбона с эпоксидной смолой (технология вакуумной инфузии)
наружное финишное покрытие с высоким модулем твёрдости, камуфляжный паттерн окраски
внутренний слой 0.07 mm гальваническая медь + ферромагнитные композиты^[25]^[26]^[27] (экранирование от паразитного СВЧ излучения, в т.ч. радаров, и электромагнитных помех - с переменным импедансом и дипольной конструкцией, защита от ионизирующего нейтронного облучения)
наружная линза визора из прозрачного поликарбоната (полиуретана) с магнетронным напылением против УФ спектра, anti-reflective (AR) coating, anti-scratch (AS) coating (Diamond-like carbon - DLC)
внутренняя линза визора из прозрачного поликарбоната (полиуретана) с нанесёнными изнутри слоями затухающих окон и площадок, снаружи - световозвращающие слои для 3-х диапазонов световых волн - dielectric (Bragg mirror) design и anti-scratch (AS) coating (Diamond-like carbon - DLC)
сухой азот внутри камеры визора предотвращает образование конденсата внутри камеры между линзами визора
изоляция - гибкий эластомер из полиуретана

В итоге мы получаем лёгкий и упругий композитный материал, эффективно противостоящий кинетической энергии осколков на излёте и по касательной, защищающий от ожогов, паразитного микроволнового, электромагнитного, ионизирующего излучения.

Другие разработки для расширения функциональности данного устройства:

жилет обеспечения - эластичный жилет, надеваемой под бронежилет, который содержит пауэрбанк, мешок питьевой системы и мешок с инфузионным раствором для инъекции при острой кровопотере
автотурникеты и датчики жизнедеятельности
носимый кардиофибриллятор (WCD) - грудной пояс с одной лямкой через правое плечо
встроенная помпа лёгочной реанимации
цифровой видеоприцел
импеллеры для встроенного анемометра
программно-определяемая антенна
пассивный радар
металлоотражающий радар

Группы функций: 1. Ситуационная осведомлённость - Cams (users, drones, bites), CV, CH 2. Многоканальные коммуникации - IMS, Text, Voice, multichannel 3. EW&SIGINT - SDRS, RDF, passive radar, Anti-Radar, active radar 4. RC 5. Fire assist 6. AI - voice assist, apps, FA, RC, tasks, обучение, подсказки, анализ угроз 7. Maps, navigation 8. Task Management, CDI, BMS 9. Обучение, тренировка, VM, L-STE

Dev - User Stories

Сержант Смит получил минно-взрывное ранение, травматическую ампутацию левой стопы и контузию, с потерей сознания
- В течение 1-й минуты ЭКГ зафиксировало острое кровотечение, шоковое состояние, фибрилляцию желудочков
- Сработали автотурникеты на левой голени и левом бедре (неполное натяжение) - пульс в верхней части бедра слабый (температура в норме), пульс в верхней трети голени не обнаружен (кровотечение ниже остановлено), сигнал от сенсора на левой лодыжке не поступает (сенсор разрушен)
- Сигнал тревоги с запросом эвакуации передан в системе мгновенных сообщений внутри подразделения и в командный центр, с интервалом 5 мин. отправляются повторные сообщения с указанием позиции и показателей мониторинга жизнедеятельности

Conclusions

Acknowledgments

References

↑ e.g., there are already controllers for remote control of drones and robots, passive radars, software-defined radio and software-defined antennas, Battle Management Systems, L-STE, Hand Tracking, Computer Vision, language models and Generative Pre-trained Transformers based on Artificial Intelligence, and many other technologies that will be able to develop faster using the ARHUDFM platform
↑ Wikipedia, "GPT"
↑ ^3.0 ^3.1 Washington DC: The Joint Staff, DoD Dictionary of Military and Associated Terms, (Nov. 2021)
↑ L3HARRIS BNVD-1531 SUPERGAIN (UNFILMED WHITE PHOSPHOR 2376+ MIN. FOM) BINOCULAR NIGHT VISION DEVICE
↑ L3Harris ENVG-B
↑ Leupold 10x50mm Tactical Military Coyote Brown Mil Dot binocular
↑ Pew Pew Tactical, "5 Best Rangefinders For Shooting"
↑ 3M™ PELTOR™ ComTac™ XPI Headsets
↑ L3HARRIS FALCON III® AN/PRC-152A, AN/PRC-163
↑ 1Lumen, "Best Tactical Flashlights of 2023"
↑ GearJunkie, "The Best Flashlights of 2023"
↑ LynxDefense, "Best Tactical Flashlight"
↑ Comrod, "Multiband antenna Multiband LTE , 698-960/1710-2170/2500-2700 MHz"
↑ Comrod, "UHF/L-S Band handheld antenna, monopole/dipole, 0.34 m (1.1 ft) 225-450 MHz, 760-2600 MHz"
↑ Comrod, "VHF/UHF/L-Band manpack handheld, monopole/dipole, 0.3 m (1 ft) 30-2500 MHz"
↑ Schiebel, "AN-19/2"
↑ L3Harris, "AN/PSS-14"
↑ YouTube, "Live from the Airbus cockpit - Learn the HUD - Airbus - Falcon and Boeing"
↑ YouTube, "Get a Pilot's Eye View of the F-35 Head-Up Display - AINtv", "F-35 UI Design"
↑ Wikipedia, "Outline of artificial intelligence"
↑ Wikipedia, "List of emerging technologies"
↑ AGM Global Vision, "US soldier equipment. Part 1. History"
↑ Chron, "The Average Salary of a U.S. Soldier"
↑ National Defense, "Pentagon Personnel Costs at Historic High", (Oct. 19, 2021
↑ Aktinovia, "High perform EMF Interference Shielding"
↑ Whitepaper, "Methods of protection against ionizing radiation"
↑ Whitepaper, "A METHOD OF PROTECTING SEMICONDUCTOR DEVICES FROM PENETRATING RADIATION BURSTS"

External links

[1] .g., there are already controllers for remote control of drones and robots, passive radars, software-defined radio and software-defined antennas, Battle Management Systems, L-STE, Hand Tracking, Computer Vision, language models and Generative Pre-trained Transformers based on Artificial Intelligence, and many other technologies that will be able to develop faster using the ARHUDFM platform

[2] Wikipedia, "GPT"

[:0-3] 3.0 ^3.1 Washington DC: The Joint Staff, DoD Dictionary of Military and Associated Terms, (Nov. 2021)

[4] L3HARRIS BNVD-1531 SUPERGAIN (UNFILMED WHITE PHOSPHOR 2376+ MIN. FOM) BINOCULAR NIGHT VISION DEVICE

[5] L3Harris ENVG-B

[6] Leupold 10x50mm Tactical Military Coyote Brown Mil Dot binocular

[7] Pew Pew Tactical, "5 Best Rangefinders For Shooting"

[8] 3M™ PELTOR™ ComTac™ XPI Headsets

[9] L3HARRIS FALCON III® AN/PRC-152A, AN/PRC-163

[10] 1Lumen, "Best Tactical Flashlights of 2023"

[11] GearJunkie, "The Best Flashlights of 2023"

[12] LynxDefense, "Best Tactical Flashlight"

[13] Comrod, "Multiband antenna Multiband LTE , 698-960/1710-2170/2500-2700 MHz"

[14] Comrod, "UHF/L-S Band handheld antenna, monopole/dipole, 0.34 m (1.1 ft) 225-450 MHz, 760-2600 MHz"

[15] Comrod, "VHF/UHF/L-Band manpack handheld, monopole/dipole, 0.3 m (1 ft) 30-2500 MHz"

[16] Schiebel, "AN-19/2"

[17] L3Harris, "AN/PSS-14"

[18] YouTube, "Live from the Airbus cockpit - Learn the HUD - Airbus - Falcon and Boeing"

[19] YouTube, "Get a Pilot's Eye View of the F-35 Head-Up Display - AINtv", "F-35 UI Design"

[20] Wikipedia, "Outline of artificial intelligence"

[21] Wikipedia, "List of emerging technologies"

[22] AGM Global Vision, "US soldier equipment. Part 1. History"

[23] Chron, "The Average Salary of a U.S. Soldier"

[24] National Defense, "Pentagon Personnel Costs at Historic High", (Oct. 19, 2021

[25] Aktinovia, "High perform EMF Interference Shielding"

[26] Whitepaper, "Methods of protection against ionizing radiation"

[27] Whitepaper, "A METHOD OF PROTECTING SEMICONDUCTOR DEVICES FROM PENETRATING RADIATION BURSTS"

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[4]

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[6]

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[14]

[15]

[16]

[17]

[18]

[19]

[20]

[21]

[22]

[23]

[24]

[25]

[26]

[27]

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