I can't tell you the technical details, but I do know that sometimes a TXT will get thru when a call will not. AFAIK, you can not TXT 911 but you could TXT someone else to call for you...I read in backpacker last month that even though a person making a cellphone call for help can't get the call through the signal pings cell towers and rescuers know the person they are looking for is still alive.
If that is true then trying to make a call is still a smart thing.
I wonder how this pinging thing works?
In order for you to be able to receive an incoming call, the phone has to occasionally send an "I am here" message to a nearby cell tower. This is presumably what is being referred to as a ping. Of course, anytime one attempts to make an outgoing call, the phone also contacts a nearby tower.I read in backpacker last month that even though a person making a cellphone call for help can't get the call through the signal pings cell towers and rescuers know the person they are looking for is still alive.
If that is true then trying to make a call is still a smart thing.
I wonder how this pinging thing works?
Even worse:
That would conserve the batteries. However, good spots to turn it on may not be entirely predictable...
Little Rickie said:
If you are immobilized, obviously you do the best you can from where you are. You may still be able to increase your probability of getting a contact (including voice, text, or ping) by keeping your phone off part of the time because the signal propagation can be affected by temperature and humidity profiles--signals tend to go farther at night than during the day, particularly during the summer.
Yes, and if the phone doesn't hit a cell (as is the case in much of the High Peaks region) it keeps pinging away repeatedly, trying to find a tower, draining the battery even though the phone's owner hasn't made or received a single call!
Ask me how I know this...
Yes, and if the phone doesn't hit a cell (as is the case in much of the High Peaks region) it keeps pinging away repeatedly, trying to find a tower, draining the battery even though the phone's owner hasn't made or received a single call!
Ask me how I know this...
There are four different major protocols: TDMA, CDMA, GSM, and analog and there may be variants on each. It is likely that you are comparing different model phones and it is possible that your phones use different protocols which consume different amounts of power when out of range.
All the phones I've owned (4 or 5) died much more quickly when there is limited or no service.
OK. I haven't studied the protocols in any detail. However, some aspects are obvious from the nature of the system. Having the towers advertise their presence would be my first guess at how the system should be designed.
I presume that a cellphone does not answer every ping it hears (to save energy and reduce interference). Once it has registered its presence with a tower, it shouldn't need to re-register for some period of time unless it detects that it has moved to another cell.
Reasonable strategies, IMO. But off course, it cannot go totally dormant because it needs to be able to discover when it comes within range of a tower. This dormant state would likely be implemented by turning the receiver off for some period followed by listening for another period. (FWIW, my 2-meter HT has such a mode (manually controlled).)
Ideally true, but a weak service area could increase the drain because the replies would require more power than a strong service area.
Don't have access to one and I'm not in the cellphone design business so I don't really need one...
]
I absolutely agree with Tom. My battery lasts for several days when I am in a populated area with lots of cell service. When I am in certain locations in the Adirondacks or elsewhere with no service, the battery will drain within a few hours. Every time.
Short-term s/n can change significantly over very short time intervals (fractions of a second), particularly if the phone is moving. It would be poor system design to change towers too often--it would be much better to base a change tower decision based upon the average s/n over some time interval such as 10-30 seconds and to limit the rate of tower changes unless the current tower is lost.
The system is designed with the assumption that a phone can only connect to a few nearby towers which must be able to cooperate to hand off a phone as it moves from one cell to the next. The cooperation mechanisms are not designed to handle phones that can connect to towers that are too far apart (ie have too many towers between them) and therefore the system does not work under these conditions. As I noted earlier, this has been observed on Rainier and the user fix is to move to a location with more terrain blocking.
A metal box may not actually be all that good a shield. RF leakage of a crack (or joint) in a metal box is more related its length rather than its area. Cellphone signals are UHF--unless the box is designed to be an RF shield it is most likely quite leaky. (You could try calling the phone in the box--if it rings, the box is clearly leaky.) A shielded box is sometimes called a Faraday cage.
I don't have an explanation, but a couple of hours is similar to the maximum contact time which suggests that the transmitter is active.
