Feel the world with your a/c (Weatherator)

Don’t set temperatures anymore, get on a higher level with my idea, an augmented systemised a/c, which allows you to set cities rather than temperatures!

You’re sitting in New Delhi or Mumbai, and you set your a/c at New York or say Tokyo, in half an hour your room temperature and humidity matches with those currently in the set city (New York or Tokyo).

This a/c has few augmentations a humidifier, room heater, fogger and a network link with the company’s system which is again linked with a weather updating system of any weather organization. When you set a city, the network checks in all the current details (temperature, humidity) of the set city from the weather updating system, adjusts the setting of your a/c as input on its own and your a/c starts the action and sets up your room temperature, humidity and fog with that currently present in the city you've set.

The system also has a set up system in which you can ignore one or more parameters from the world setting say if you put New York set up while being in Mumbai, but ignored the fog only other parameters would change, also, if you ignored humidity the humidity will not get adjusted. It also has a system imbibed which allows setting percentage of various parameters to your convenience, say set your humidity or any other parameter be 20% of the selected city.

The a/c also comes with conventional setting, so when you don’t want any weather; rather your own you can very well do that, including the humidity and fog.

1. The feeling ‘at home’ would really be wonderful if you’re away from your home city, also you can have some good time by feeling different cities’ weather right in your home.
2. It could also help in acclimatization of soldier before shifting, military academies could very well benefit from such systems.
3. Schools and universities could not just teach rather make the students feel how different places on earth are.

No more temperature settings, be innovative set cities and feel them in your home!

Shaikh Mazher

mazherlibran@gmail.com

Just caller’s voice mobile, no back sounds

Lets other hear only your voice no background sounds and disturbances

My technique, a simple augmentation inbuilt in your mobile will solve the problem, please read the following:

Problem:

You call someone while you are at a noisy place; the other person hears all sorts of back sounds and thus disturbs the conversation. Loud-speaker, TV, traffic honking, railway, people talking around you disturbs the conversation if you call someone. The person can’t hear properly. This could be dealt with a unique augmented mobile.

Result:

A mobile phone which recognizes only the caller’s voice and eliminates all other surrounding sounds while the call is made. The person who receives the call hears just the caller voice and no other sounds, even though the caller is at a very noisy place.

Two tier

If even the receiver is having same version mobile, the two persons conversing will hear just the other person, and conversation would become convenient, disturbance free conversation.

Theory:

Every source of voice emits sounds with a frequency. These sounds are received by receiver (observer). There is some distance between the source and observer of the sounds.

Doppler’s effect states that sound frequency changes as the distance between source and observer changes.

My technique/ solution:

The receiver set in mobile receives sounds from different sources, the mouth of person who speaks (10-15 cm), from other people at least (24 cm up to few metre), nearby TV or speaker sets (5 to 6 metre), vehicle passing by ( 2 to 12 metre and more) this can go to as many sources as possible. It is obvious sounds reaching from various sources have different frequencies and are definitely different from the frequency of sound which is originating from the mouth of the person who is speaking. Thus there are two groups of sound one from the person who is speaking on the mobile (unique frequency) and other sources (several frequencies).

An inbuilt frequency sensor is the answer, it recognizes the source whose sound is to be transmitted (the caller’s mouth) the distance is about 10 to 15 cm, after recognizing the source it reads the frequency of the sound and start to isolate this particular voice (unique source and unique frequency) of the caller and begins to transmit only this sound. All other sound waves having different frequency and source points other than caller’s mouth would be eliminated from further transmission. This would result the person who receives the call to hear only the voice of person who has made the call, all sounds around the caller are eliminated and the receiver can’t hear anything other than the voice of the person who is speaking.

If both the persons, one who made the call and the person who receives the call are having the same version (inbuilt frequency sensor) mobile phone they would hear only the voice of person who speaks and not the surrounding sounds.

Illustration:

In illustration 1 the mobile of person who made the call is receiving all sorts of sounds, sounds from caller’s mouth (cyan colour), sounds from the bus behind (red colour) and sounds from nearby loud speaker (dark blue sound). It transmits all sound combined to the person receiving the call. See in illustration 2 the person who received the call hears all sounds, sounds of person speaking (cyan colour), sounds of Bus (red colour) and sounds of loud speakers (dark blue colour), resulting in a disturbed inconvenient conversation.

In illustration 3 same things happen as in 1, the mobile of person who made the call is receiving all sorts of sounds, sounds from caller’s mouth (cyan colour), sounds from the bus behind (red colour) and sounds from nearby loud speaker (dark blue sound). But it transmits only the sounds of person speaking (cyan colour) and eliminates all other sounds, because of inbuilt frequency sensor, resulting in a disturbance free, convenient conversation.

Certain consideration and exceptions

Off course the voice of the person who is speaking may have variable frequencies too but the source in this context is same, also the frequencies would remain within the band. Which is what sensor recognizes.

Secondly, there may be a sound from surrounding which may have the same frequency in this case the source is definitely away, and there are low chances of such sound which matches the frequency. Even if there be this case the altogether total sound disturbance is definitively low compared to mobile which won’t be having inbuilt voice sensors.

Shaikh Mazher

mazherlibran@gmail.com

Device giving signals when mobile / wallet is stolen, also no absent-mindedness!

My technique lets you know the moment your mobile is stolen while the stolen mobile phone is still within hand’s reach, and reminds you when you forget your keys, wallet or mobile etc, any of them. A mobile phone is stolen, you jam it, you make a police complaint and let them trace and further procedures, but doesn't it create a whole lot of problems? Plus a need to get a temporary mobile phone arises.

My technique is an alternate approach first addressing theft of mobile phone, wallet etc simultaneously helps us deal with our absent-mindedness of frequently forgetting mobile phone, keys and wallets etc while leaving a place. Let me explain you, you keep mobile phone, keys, wallets etc with you. Most of the time we forget any one of these and it creates problems. Another problematic event is mobile phone or wallet theft; you can jam or trace your phone later on, what about wallet? Also, mobile phone theft always accompanies post problems. We keep mobile phones and wallets in our pockets or hand bags. Read the following for what can we do. 

Two tiny devices wirelessly connected to each other within a short range say max 2 m or 2.5 m. They accompany several other electronics system as well, that we deal with in following lines. The two devices are wirelessly connected with each other. We call the two devices as device A and device B, device A is just one, while device B could be two or three copies say B1, B2 and B3 each B is wirelessly connected to A. Device A is inbuilt in mobile phone and B devices come along with box when one purchases the mobile. Now where do we use B devices? They are tiny chip sets that we can keep inside our wallet (B1), ring in our key chain (B2) etc. By sets (Bs) kept within range (2m by default) are wirelessly connected with Mobile phone (inbuilt set A) the moment the gap between them is broken say 2.1m devices get activated and alarms are activated on mobile ( a unique ring tone or vibration mode) as well as B devices, with an adjustment dealt in next paragraph. It signal the object (Mobile, wallet or keys) is stolen or forgotten and is within a reachable limit just crossed 2.1 m. and the moment the contact is regained it signal the Bs are re connected again implies that stolen stuff is just a hand’s away. In any case it will decrease the chance of theft or forgetting stuffs considerably.

A, B1, B2 are connected, B1 (Wallet) is stolen but A and B2 remain in contact, therefore A and B2 start to give signal (Ringtone or vibrations). A (mobile phone) is stolen but B1 and B2 are still in contact therefore both Bs start to give signals. The stolen stuff avoids giving signals to help trap the object by the owner in earliest minutes.

They will also result in another convenience all three stuffs be kept together at desk or table at home, office or other locations. There be adjustable distance, vibrations or ringtone to set at personalize options.

Shaikh Mazher

mazherlibran@gmail.com

Thermal view of Refrigerator and its solution

My Technic is based on a simple question, if an a/c is kept inside a room and operated, would the room get hotter or cooler? Well the correct answer is the room will get hotter, the heating effect of a/c operation will be nullified by the cooling output of a/c but at the same time the power consumption will raise average temperature.

From mechanical point of view there is no difference between refrigerator and an a/c! They are same machine used for same purpose; fridge is used to cool a cabinet while a/c is used to cool a room which is nothing but a bigger cabinet.

We all have simple understanding that the condenser of a/c be kept out of room, just outside of window in case of window a/c or at other appropriate place outside of room in split a/c case. But we don’t apply the same logic in case of fridge! We keep the heat dispersion part or condenser of fridge within the room as it is attached to the fridge’s body. It may not cause any problem within the fridge’s cabinet but it does disperse the heat of fridge’s cabinet inside the room, which definitely increases the room temperature. In case if the room is a/ conditioned, a/c need to do extra work than it had to do in case if there was no fridge in the room.

To acknowledge the fact I discussed in the above paragraph, we need a thermal camera. Just observe the room a/conditioned or non a/c room but there must be a refrigerator inside the room, observe the room under thermal camera, you would see that heat is being continuously released inside the room, which does nothing but raises the temperature of the room. In case of a/c room it may not be felt physically since a/c is doing extra work to cool the extra heat, while in case of non a/c the temperature is definitely bound to increase.

A simple solution in my opinion that would remove the above sited problems: separate the condenser from main body of refrigerator. Just like in case of split a/c, fridges should have a split up part the main cabinet and the condenser. An observation under thermal camera reveals the change.

Where should, the cabinet be installed? Well, on the window sill or outside window aside of window, in gallery or grills. Another option could be it to be made to hang from the top sill of window, thus free the lower window sill.

Primarily, the advantage from the technic would result in temperature reduction in non a/c room, if it a/c lower work pressure on a/c, thus cost cutting could be achieved. Secondary advantage reclamation of space in fridge cabinet, as the condenser unit is outside the same space could be used for storage or a larger vegetable tray.

If conventional condenser for split a/c are redesigned they could be used for both fridge as well as a/c, this could result in altogether new product for marketing and thus further sales increment.

A cooler and convenient home!

Mail me here: mazherlibran@gmail.com