I'm not deeply familiar with ext3, but I can give you some general pointers.
Currently ext3 stores inodes in predetermined places. Each block group has its own inode table, an array of inodes. So when you have an inode number (i.e., as the result of looking up a filename in a directory), you can find the corresponding inode on disk by using the inode number first to select the correct block group and then to index into that block group's inode table.
If you want to put the inodes next to the corresponding file data, you'll need a new scheme for finding an inode on disk. If you're willing to dedicate a block for each inode, then one possible scheme would be to allocate a new block every time you need an inode and then use the block number as the inode number. This might have the benefit that for small files you could store the data in that same block.
To make something like this happen, creating a new file (i.e., allocating an inode) would have to work very differently than in the current ext3 file system. Instead of using a bitmap to find an unused, pre-allocated and pre-initialized inode, you would have to allocate an empty block and initialize it yourself. So, you'll probably want to look at how the file system allocates blocks when it's writing to a file, then mimic that for allocating an inode.
An alternative scheme would be to store the inode inside the directory. So you save an I/O not because the inode is next to its data, but because when you lookup the filename you also read the inode. This was done back in the 90s as an experiment in BSD's FFS file system, and was written up in an excellent USENIX Paper. Those ideas never made it into FFS, or into any other main stream file system that I'm aware of, so it might be interesting to see how they work in ext3.
Regardless of whether you pursue one of these schemes or come up with something of your own, you'll also have to modify mke2fs to initialize the file system on disk in a way that your new file system variant will understand.
Good luck! It sounds like a fun project.