# How to compute the absolute minimum amount of changes to convert one sortorder into another?

Goal

How to encode the data that describes how to re-order a static list from a one order to another order using the minimum amount of bytes possible?

Original Motivation

Originally this problem arose while working on a problem relaying sensor data using expensive satellite communication. A device had a list of about 1,000 sensors they were monitoring. The sensor list couldn't change. Each sensor had a unique id. All data was being logged internally for eventual analysis, the only thing that end users needed daily was which sensor fired in which order.

The entire project was scrapped, but this problem seems too interesting to ignore. Also previously I talked about "swaps" because I was thinking of the sorting algorithm, but really it's the overall order that's important, the steps required to arrive at that order probably wouldn't matter.

How the data was ordered

In SQL terms you could think of it like this.

``````**Initial Load**

create table sensor ( id int, last_detected datetime, other stuff )
-- fill table with ids of all sensors for this location

Day 0: Select ID from Sensor order by id
(initially data is sorted by the sensor.id because its a known value)

Day 1: Select ID from Sensor order by last_detected
Day 2: Select ID from Sensor order by last_detected
Day 3: Select ID from Sensor order by last_detected
``````

Assumptions

• The starting list and ending list is composed of the exact same set of items
• Each sensor has a unique id (32 bit integer)
• The size of the list will be approximately 1,000 items
• Each sensors may fire multiple times per minute or not at all for days
• Only the change in ID sort order needs to be relayed.
• Computation resources for figuring optimal solutions is cheap / unlimited
• Data costs are expensive, roughly a dollar per kilobyte.
• Data could only be sent as whole byte (octet) increments
• For now assume the system functions perfectly and no error checking is required

As I said the project/hardware is no more so this is now just an academic problem.

The Challenge!

Define an Encoder

• Given A. Day N sort order
• Given B. Day N + 1 sort order
• Return C. a collection of bytes that describe how to convert A to B using the least number of bytes possible

Define a Decoder

• Given A. Day N sort order
• Given B. a collection of bytes
• Return C. Day N + 1 sort order

Have fun everyone.

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Are you sure this is a sorting problem? If I read correctly, it sounds more like a compression problem - you want to know what device fired when, using minimal storage. Also, if I read literally, I'm unclear on what you're referring to as "sort order". It looks like you're asking for how the data should be sorted, but I don't see any instructions about what sorting matters - when something fired, how many times it fired, etc. Without knowing what kind of output we're looking for, it's very hard to tell you how we'd sort it. – atk Jan 15 '10 at 20:38
It seems a lot like diffing. What you call "sort order" is really just an arbitrary list of sensor-ids. – Jason Orendorff Jan 15 '10 at 21:29
In other words, put the list in a text file; your encoder is `diff` and your decoder is `patch`. Compress the patches however you like. There are hundreds of questions on SO about diffing algorithms, but Wikipedia might make better reading. en.wikipedia.org/wiki/Diff#Algorithm – Jason Orendorff Jan 15 '10 at 21:38
I'm not sure - I has the original question here: stackoverflow.com/questions/1567833/… and people seemed interested in it. I tried to create a new question as promised. – Great Turtle Jan 16 '10 at 4:31