DS is the data segment register - like all segment registers, its value multiplied by 16 represents the base address of a 64K chunk of memory.
When executing instructions, memory addresses are calculated by taking the base address represented by a segment register (by default, the DS register is used for data) and adding an offset value specified by a constant or a register.
mov ax, [si] is equivalent to
mov ax, [ds:si] which (with your register values) represents
mov ax, [3000:200]. Internally, the processor will calculate the absolute memory address of (3000*16)+200 and copy the data from that memory location into
ax. A similar procedure is used for the memory accesses when adding and saving the result.
The reason you can't do
mov ds, 3000 is simply because Intel decided not to support moving constant values into segment registers - there's no encodable instruction for it. instead, you must transfer the value via another register (in your code
ax is used).
Your (original) description isn't quite right - the code does add the values at [3000:200] and [3000:202], but the result will be stored to [3000:204] (not [3000:202]).
Don't forget: the values stored in segment registers like DS (and CS, ES, FS and GS) do not specify a base address directly - they must always be multiplied by 16 to get the real base address.