"... In PAGE 3: ...reamble length was 6 bytes at 31.25 Kbits/sec (MIDI). Thus, for questioning a slave station we need: 6 preamble bytes + 1 question byte = 7 bytes If answer is 16 sensors on 10 bits, we need: 6 preamble bytes + 16 * (2 bytes) = 38 bytes The efficiency is then: It means that even with MIDI running status, we cannot expect a bandwidth higher than 490 Hz (0.71*692, see Table1 ) on the wireless link (i.e.... ..."

"... In PAGE 7: ... To con- struct the initial buffered clock trees, we first generate and embed the tree topology using the DME algo- rithm [5]; then we follow the buffer insertion scheme described in [21] to insert the clock buffers. The re- sults are summarized in Table1 . Columns 1 through 4 give the circuit name, the number of clock sinks, the number of clock buffers, and the number of gen- eral skew constraints.... ..."

"... In PAGE 6: ...[14] 3.3 COMPARISON Table2 shows the comparison between USB and 1394. While the two serial buses seem similar, they are in- tended to fulfill different bandwidth and cost needs.... ..."

"... In PAGE 4: ... USB-5, on the other hand, is not divisible by (x+1) and per- forms better than CCITT-5 at all lengths above 10 bits. To understand why USB-5 does so much better in Figure 1, it is helpful to examine the weight structure at length 3151, shown in Table2 . For a BER of 10-6, most messages of length 3151 suffer zero-, 1-, or possibly 2-bit errors, with each increasing number of erroneous bits less likely.... In PAGE 4: ... Many uses of CRC-8 in current systems are therefore questionable, because they attempt to provide error detection for a large data word (such as across a long message or a large block of memory data). 4 Polynomial HD Hamming weights for number of bits corrupted: 1 bit 2 bits 3 bits 4 bits 5 bits USB-5 0x12 2 0 159 075 163 552 409 128 929 654 767 81 278 805 135 219 CCITT-5 0x15 2 0 330 435 0 257 909 068 726 0 Table2 . Weights for CCITT-5 and USB-5; data word size 3151 bits.... ..."

"... In PAGE 9: ... The USB device must have a storage capacity of at least 256 MB. Table1 on page 9 lists USB devices supported for use with the J-series routers. Table 1: Supported USB Devices on the J-series Services Routers... ..."

"... In PAGE 19: ... In May 2002, the first chipsets with integrated host controllers were announced. In Table1 , we present a time-line of some of the more important developments in the history of USB 2.0.... ..."